gliese3-0.95/0000755000175000017500000000000010114766330014457 5ustar kmccartykmccarty00000000000000gliese3-0.95/README0000644000175000017500000000361207563172651015354 0ustar kmccartykmccarty00000000000000This is a stellar data set for use by the StarPlot program. You will need to have StarPlot already installed in order to install this data set. To download StarPlot, see the web page at http://www.starplot.org or, if you are using Debian or a compatible system: apt-get install starplot This directory should include the following files: README This file. INSTALL Instructions for installing this data set. COPYING Information about the copyright of this data set. Changelog History of the StarPlot incarnation of this data set. gliese3.spec Specification of original data file format. orig-data/ Contains the unmodified data from the ADC archives. debian/ Control information for building a Debian package. These data come from the Third Catalogue of Nearby Stars (preliminary edition), Gliese and Jahreiss, 1991, which is located in the file orig-data/catalog.dat and has an accompanying description in orig-data/ReadMe. A StarPlot-readable file, gliese3.stars, will be automatically generated from catalog.dat by starconvert, a conversion program, at install time. After conversion, the file will contain approximately 3800 star records including the known stars nearer to Earth than approximately 80 light-years. The data set was obtained from the archives of the Astronomical Data Center (ADC) at NASA Goddard Space Flight Center. These archives are available to the public at http://adc.gsfc.nasa.gov. COPYRIGHT NOTE It is safe to redistribute the files in the orig-data directory, which, as noted above, are freely available on the Astronomical Data Center web site. However, since these are copyrighted data, you may NOT redistribute modified versions of them. This is why I have the StarPlot-format data files, *.stars, generated at install time instead of being available for download. I would advise that you NOT redistribute these *.stars data files. See the file COPYING for more information. gliese3-0.95/INSTALL0000644000175000017500000000053207563217242015517 0ustar kmccartykmccarty00000000000000To install this data set, you will need to have StarPlot and the accompanying utility program, starconvert, already installed. Then simply execute the following commands (as root, if necessary): cd gliese3-0.93 starpkg --dataset . --dest /usr/local/share/stardata (change the last argument to wherever you want to put the StarPlot data file) gliese3-0.95/COPYING0000644000175000017500000000312207174742777015535 0ustar kmccartykmccarty00000000000000 NOTE ON STAR DATA FILES Everyone is permitted to copy and distribute verbatim copies of this copyright note, but changing it is not allowed. The Makefile and .spec file of this data set are licensed under the GNU GPL, of which you should have received a copy with the StarPlot documentation. The GPL also applies to the text documentation (README, INSTALL) for this data set, except where it would conflict with the licensing requirements described below. The GPL does ***NOT*** apply to the star data files enclosed or generated. The data files in the orig-data directory originate from the Astronomical Data Center (http://adc.gsfc.nasa.gov) at NASA Goddard Space Flight Center, and are copyrighted by their respective authors. Upon asking the ADC about the permissibility of their redistribution, I was told the following: Yes, you are free to distribute the files with your program. Although, we do ask that you acknowledge, your source (the ADC) and the original authors. See: http://adc.gsfc.nasa.gov/adc/acknowledge_adc.html for more information. My conclusions are that (1) you are free to redistribute the ADC data files. However, (2) you must not delete any documentation giving credit for the data files, for example in the README; and (3) the data files must NOT be altered in any way (without permission of the original authors). Therefore (4) it is NOT permissible to redistribute the *.stars files which the StarPlot conversion program creates from the ADC data files. I have confirmed these conclusions with the ADC. The above text is Copyright (C) 2000 Kevin B. McCarty. gliese3-0.95/orig-data/0000755000175000017500000000000007234567340016337 5ustar kmccartykmccarty00000000000000gliese3-0.95/orig-data/ReadMe0000644000175000017500000002433307174706357017432 0ustar kmccartykmccarty00000000000000V/70A Nearby Stars, Preliminary 3rd Version (Gliese+ 1991) ================================================================================ Preliminary Version of the Third Catalogue of Nearby Stars GLIESE W., JAHREISS H. ================================================================================ ADC_Keywords: Stars, nearby Description: The present version of the CNS3 contains all known stars within 25 parsecs of the Sun. It depends mainly on a preliminary version (Spring 1989) of the new General Catalogue of Trigonometric Parallaxes (YPC) prepared by Dr. William F. van Altena (Yale University). The catalogue contains every star with trigonometric parallax greater than or equal to 0.0390 arcsec, even though it may be evident from photometry or for other reasons that the star has a larger distance. For red dwarf stars, new color-magnitude calibrations for broad-band colors were carried out and applied. For white dwarfs, the recipes of McCook and Sion were applied (=1985ApJS...65..603M). Stroemgren photometry was used (not yet systematically) for early-type stars and for late dwarfs, the latter supplied by E. H. Olsen from Copenhagen Observatory (private communication). Contrary to the CNS2 (Gliese 1969) trigonometric parallaxes and photometric or spectroscopic parallaxes were not combined. The resulting parallax in the present version is always the trigonometric parallax -- if the relative error of the trigonometric parallax is smaller than 14 percent. The resulting parallax is the photometric or spectroscopic parallax only if no trigonometric parallax is available or if the standard error of the trigonometric parallax is considerably larger. Nomenclature Note: All new nearby stars have not been numbered, and only "NN" appears in the column "Name". There are therefore problems to designate these new stars, as e.g. in Reference =1994ApJS...93..287W . It is recommended for such stars to use one of the alternate designations from columns "Giclas", "LHS", "OtherName" or "Remarks". NOTE ADDED IN DECEMBER 1997: However, the usage found in the literature led to add a number for these "NN" stars, starting from 3001 (for star #2), 3002 (for star #4), etc, and ending with NN 4388. File Summary: -------------------------------------------------------------------------------- File Name Lrecl Records Explanations -------------------------------------------------------------------------------- ReadMe 80 . This file catalog.dat 257 3803 The Catalogue -------------------------------------------------------------------------------- See also: III/198 : Palomar/MSU nearby star spectroscopic survey (Hawley+ 1997) Byte-by-byte Description of file: catalog.dat -------------------------------------------------------------------------------- 1- 8 A8 --- Name *Identifier ; see remarks. 9- 10 A2 --- Comp Components (A,B,C,... ) 11 A1 --- DistRel *[pqsx] Reliability of the distance 13- 14 I2 h RAh ? Right Ascension B1950 (hours) 16- 17 I2 min RAm ? Right Ascension B1950 (minutes) 19- 20 I2 s RAs ? Right Ascension B1950 (seconds) 22 A1 --- DE- Declination B1950 (sign) 23- 24 I2 deg DEd ? Declination B1950 (degrees) 26- 29 F4.1 arcmin DEm ? Declination B1950 (minutes) 31- 36 F6.3 arcsec/yr pm ? Total proper motion 37 A1 --- u_pm Uncertainty flag (:) on pm 38- 42 F5.1 deg pmPA ? Direction angle of proper motion 44- 49 F6.1 km/s RV ? Radial velocity 51- 53 A3 --- n_RV *Remark on RV 55- 66 A12 --- Sp Spectral type or color class 67 A1 --- r_Sp *Selected sources 68- 73 F6.2 mag Vmag Apparent magnitude 74 A1 --- r_Vmag *Note on origin of magnitude 75 A1 --- n_Vmag [J] joint magnitude 76- 80 F5.2 mag B-V ? color 81 A1 --- r_B-V *Note on origin of magnitude 82 A1 --- n_B-V *Joint color 83- 87 F5.2 mag U-B ? color 88 A1 --- r_U-B *Note on origin of magnitude 89 A1 --- n_U-B *Joint color 90- 94 F5.2 mag R-I ? color 95 A1 --- r_R-I *Note on origin of magnitude 96 A1 --- n_R-I *Joint color 97-102 F6.1 mas trplx ? Trigonometric parallax 103-107 F5.1 mas e_trplx ? Standard error of trig. parallax 109-114 F6.1 mas plx ? Resulting parallax 115-119 F5.1 mas e_plx ? Standard error of res. parallax 120 A1 --- n_plx *[rwsop] Code on plx 122-126 F5.2 mag Mv Absolute visual magnitude 127-128 A2 --- n_Mv Note on Mv, copied from cols 74-75 129 A1 --- q_Mv *[a-f] Quality of absolute magnitude 132-135 I4 km/s U ? U space velocity component in the galactic plane and directed to the galactic center 137-140 I4 km/s V ? V space velocity component in the galactic plane and in the direction of galactic rotation 142-145 I4 km/s W ? W space velocity component in the galactic plane and in the direction of the North Galactic Pole 147-152 I6 --- HD [15/352860]? designation 154-165 A12 --- DM Durchmusterung number BD / CD / CP 167-175 A9 --- Giclas number <...> 177-181 A5 --- LHS number <...> 183-187 A5 --- OtherName *Other designations 189-257 A69 --- Remarks Additional identifications (LTT, LFT, Wolf, Ross, etc.) and remarks -------------------------------------------------------------------------------- Note on Name: the following acronyms are used: Gl Gliese: CNS2, =1969VeARI..22....1G GJ Gliese & Jahreiss, A&AS, 38, 423 (1979) Wo Woolley et al., Roy. Obs. Ann. No. 5 (1970) NN newly added stars (number added at CDS) See the Nomemclature Note above ! Note on DistRel: the reliability of the distance is coded: s trig. parallax > 0.0390 and phot. parallax < 0.0390 x trig. parallax > 0.0390 and phot. parallax < 0.0190 p trig. parallax < 0.0390 and phot. parallax > 0.0390 q trig. parallax < 0.0390 and phot. parallax(:) > 0.0390 Note on n_RV: the following abbreviations are used: var variable (?) radial velocity SB? suspected spectroscopic binary SB spectroscopic binary Note on r_Sp: Selected sources (list not complete) for Sp are: K Kuiper Type (see Bildelman) =1985ApJS...59..197K L San-Gak Lee =1984AJ.....89..702L O objective prism MK type (but not Michigan type) R Robertson type =1984AJ.....89.1229R s Stephenson type (Catalogue ) =1986AJ.....91..144S =1986AJ.....92..139S S Smethells type (IAU Coll. No 76, p. 421, 1983) U Upgren et al. UGP number =1972AJ.....77..486U W Mount Wilson type Note on r_Vmag, r_U-B, r_B-V, r_R-I: The following codes are used (list not complete): P photographic * photometric C from 'Cape refractor system' c calculated or transformed v variable : uncertain Note on n_U-B, n_B-V, n_R-I: This column should only contain a 'J' indicating joint magnitudes, but some other letters may also be found. Note on n_plx: The following indicators are found: r parallax from spectral types and broad-band colors w photom. parallax for white dwarfs s photom. parallax from Stroemgren photometry o photom. parallax from Stroemgren photometry calculated by E. H. Olsen p photom. parallax from other colors Note on q_Mv: the Quality code for Mv is a s.e. < 0.10 mag b 0.11 < s.e. < 0.20 c 0.21 < s.e. < 0.30 d 0.31 < s.e. < 0.50 e 0.51 < s.e. < 0.75 f 0.76 < s.e. Note on OtherName: the following acronyms are used: V Vyssotsky number (Catalogue ) U UGP number =1972AJ.....77..486U W white dwarf (EG or Gr number, see catalogue ) -------------------------------------------------------------------------------- References: Gliese W., 1969, Veroeff. Astron. Rechen-Inst. Heidelberg, No 22 =1969VeARI..22....1G Gliese W., Jahreiss H., data 1969-1978 =1979A&AS...38..423G See also: III/13 : Vyssotsky's catalogues 1950.0 (1943-1958) III/129 : Spectroscopically Identified White Dwarfs, 1987, McCook and Sion V/32 : Woolley's Catalogue of stars within 25pc of the Sun V/35 : Gliese W., Jahreiss H., CNS2 Catalogue and nearby star data 1969-1978 Historical notes: * Description initially prepared by Hartmut Jahreiss, Astronomisches Rechen-Institut, Moenchhofstrasse 12-14, D-6900 Heidelberg 1, GERMANY. The catalogue is distributed on the CD-ROM "Selected Astronomical Catalogs", Volume 1, 1991, directory /combined/nearbyst * 05-Sep-1994: reformatted according to CDS Standards (F. Ochsenbein) The missing decimal points in the parallax columns (plx trplx e_plx e_trplx) has been added, and the blanks between the sign and the number in all numeric columns have been removed. * 04-Nov-1995: this documentation file revisited at CDS (F. Ochsenbein) * 04-Dec-1997: the "NN" number has been completed with a number starting with NN 3001 and ending with NN 4388 (See Nomenclature Notes above) ================================================================================ (End) Francois Ochsenbein [CDS] 04-Nov-1995 gliese3-0.95/orig-data/catalog.dat0000644000175000017500000267027207174706357020471 0ustar kmccartykmccarty00000000000000 Sun G2 V -26.72 +0.65 +0.10 4.85 a 0 0 0 Sun NN 3001 00 00 06 -34 29.7 0.758 168.6 DC9 14.90 +0.46 -0.44 075.2 07.0 075.2 07.0 14.28 c G267-018 1008 W406 LTT 3 GJ 1001 00 02 05 -40 57.8 1.618 154.5 -3. M3.5 K 12.84 +1.63 +1.30 +1.23 104.2 13.8 104.2 13.8 12.93 c -1 -73 +12 102 LTT 20 NN 3002 q 00 02 16 +34 22.8 0.776 83.0 +6.4 VAR G2 V 6.11 +0.62 +0.09 029.8 10.7 049. 04. s 4.56 b -70 -26 -8 225239 BD+33 4828 1013 LTT 10009 LFT 4 NN 3003 00 02 21 +22 59.5 0.380 91.5 G9 V 7.82 +0.74 +0.29 +0.33 039. 07. r 5.78 d 225261 BD+22 4950 G130-040 LTT 10010 Gl 1 00 02 28 -37 36.2 6.097 112.5 +22.9 M4 V 8.54 +1.46 +0.96 +0.92 221.8 07.7 221.8 07.7 10.27 a -78 -101 -35 225213 CD-37 15492 G267-025 1 Gl 2 00 02 32 +45 30.6 0.894 100.5 +0.1 dM2 e W 9.93 +1.49 +1.18 +0.85 087.0 03.8 087.0 03.8 9.63 a -39 -23 -17 BD+44 4548 G171-039 1014 V216 NN 3004 00 02 43 +48 12.0 0.009 305.5 G5 8.30 051. 05. o 6.84 c 15 BD+47 4377 Gl 3 00 02 48 -68 06.2 0.582 190.7 +41.0 K5 V 8.48 +1.06 +1.03 +0.42 072.5 18.2 053. 08. r 7.10 d +39 -54 +3 55 CP-68 3597 1015 U001 NN 3005 00 02 54 -50 20.0 0.167 276. M5 S 11.95 +1.50 +0.95t 047. 10. r 10.31 d BPM 16002 SM 152 R-I = 1.23 Weistrop Gl 4 A 00 03 02 +45 32.2 0.839 101.8 +0.0 SB dK6 e W 8.97 +1.44 +1.21 +0.71 J 087.0 03.8 087.0 03.8 8.67 a -36 -22 -17 38 BD+45 4408 G171-040 1016 V217 ADS 48AB d(m) = 0.09 Gl 4 B 00 03 02 +45 32.1 0.885 98.3 +0.1 M0.5 V 9.02 +1.45 +1.20 087.0 03.8 087.0 03.8 8.72 a -40 -23 -15 1017 a = 6.179" P = 362.3 yr or a = 11.698" P = 1506.68 yr Gl 4.1A 00 03 38 +58 09.5 0.260 76.7 -11.6 G5 V 6.43c +0.64c +0.11c 046.5 05.8 046.5 05.8 4.77c c -18 -22 +2 123 BD+57 2865 G243-013 ADS 61AB V(AB) = 5.99 d(m) = 0.83 Gl 4.1B 00 03 38 +58 09.5 0.260 76.7 -16.0 dG8 W 7.20c +0.78c +0.33c 046.5 05.8 046.5 05.8 5.54c c -16 -26 +3 a = 1.432" P = 106.83 yr NN 3006 00 03 40 -66 07.5 0.593 160.6 M4 S 12.16 +1.55 +1.04 055. 11. r 10.86 d 1019 LFT 12 LTT 38 L 86-21 Sm 153 Gl 4.2A 00 03 44 -49 21.2 0.592 93.9 +2.6 G1 IV 5.71 +0.52 +0.03 +0.17 048.3 08.2 048.3 08.2 4.13 d -48 -31 -11 142 CD-49 14337 1020 Gl 4.2B 00 03 44 -49 21.2 0.592 93.9 11.5 * 048.3 08.2 048.3 08.2 9.9 * d 1021 sep 5.4" 176d Gl 5 00 04 01 +28 44.7 0.422 114.1 -5.5 K0 Ve 6.14 +0.75 +0.33 070.2 09.0 070.2 09.0 5.37 c -17 -21 -11 166 BD+28 4704 GJ 1002 00 04 13 -07 47.5 2.041 203.6 -42. M5-5.5 13.75 +1.98 +1.60: +1.63 212.8 03.3 212.8 03.3 15.39 a +37 -41 +28 G158-027 2 GJ 1003 s 00 04 46 +28 58.8 1.890 127.2 m 14.18 +1.49 +1.40 +1.14 053.5 02.7 053.5 02.7 12.82 b G130-043 103 Wo 9003 s 00 04 58 -24 05.9 0.348 77.5 -46.0 K0 V 8.70 +0.80 +0.35 039.2 13.6 026. 04. r 5.77 d -66 -23 +36 283 CD-24 8 G266-048 LTT 47 NN 3007 s 00 05 26 +07 44.0 0.546 222.4 M3.5 K 13.07 +1.52 +1.04 044.0 09.4 044.0 09.4 11.29 d G030-045 1022 LTT 10037 LP 524-65 L 1082-25 NN 3008 00 05 53 +17 08.8 0.105 238.3 dM0 M 10.79 +1.47 +0.75 047. 08. r 9.15 d V351 NN 3009 00 05 54 -57 22.0 0.368 264. M4 S 12.07 +1.54 +1.13t 074. 16. r 11.42 d LTT 57 BPM 16015 L 217-28 Sm 154 R-I = 1.44 Weistrop Gl 6 00 06 06 +36 21.0 0.167 222.2 -15.2 F8 IV 6.21 +0.49 -0.06: 046.2 06.8 046.2 06.8 4.53 d +20 -11 -3 400 BD+35 8 NN 3010 00 06 20 +20 33.9 0.244 194. m 13.54 +1.36 094. 14. r 13.41 d G131-026 LTT 10045 Gl 7 s 00 06 29 -27 24.1 0.683 083.7 m 11.72 +1.50 +1.15 +0.72 056.3 26.4 029. 05. r 9.03 d CD-27 16 G266-057 1026 Gl 8 00 06 30 +58 52.4 0.553 108.4 +11.3 SB? F2 III-IV 2.27 +0.34 +0.11 069.2 07.0 069.2 07.0 1.47 c -34 -6 -18 432 BD+58 3 1027 BET Cas Gl 9.1 00 06 53 -46 01.4 0.214 145.0 -9.2 K0 III 3.88 +1.03 +0.84 +0.46C 064.5 15.3 064.5 15.3 2.9 e -5 -13 +11 496 CD-46 18 EPS Phe NN 3011 00 08 31 -06 03.7 0.252 88. -5.2 dM2 M 10.86 +1.47 +1.18 +0.72 043. 07. r 9.03 d -24 -14 +1 BD-06 15 G031-030 V353 LTT 74 NN 3012 00 08 42 +58 04.5 0.235 92. K7 L 9.48 +1.22 +1.07 +0.51 046. 06. r 7.79 c G243-016 LTT 10057 Gl 10 00 08 43 -15 44.5 0.279 197.5 +14.6 F7 V 4.89 +0.49 -0.02 +0.29C 065.8 13.6 062. 08. r 3.85 c +16 -10 -17 693 BD-16 17 Viln 82 no 157 Gl 10.1 s 00 09 03 -59 11.3 0.290 90.2 -4.6 G4 V 8.35 +0.62 +0.13 +0.32C 049.6 15.3 020. 04. r 4.86 d -61 -31 -7 741 CP-59 8 NN 3013 q 00 09 12 -35 24.8 0.211 54.2 -13.5 F4 V 5.25 +0.44 032.2 11.9 044. 06. r 3.47 c -25 +4 +9 739 CD-35 42 LTT 79 GJ 1004 00 09 40 +50 09.2 0.718 216.0 DA8 14.36 +0.42 -0.42 090.7 03.7 090.7 03.7 14.15 a G217-037 1038 W381 Gl 11 A 00 10 26 +69 03.2 0.772 113.9 dM4 J K 13.06 +1.60 J+1.27 J+1.10 J 049.6 03.8 049.6 03.8 11.54 b G241-076 1040 LTT 10070 LP 50-30 ppm(LHS), V(AB) = 12.49 d(m) = 0.4 Gl 11 B 00 10 26 +69 03.2 0.772 113.9 13.4 * 049.6 03.8 049.6 03.8 11.9 * b sep 0.7" 319d (NLTT) NN 3014 A 00 10 40 +80 23.2 0.294 56. M1.5 K 11.12 +1.50 +1.21 +0.92 061. 13. r 10.05 d G242-048 V354 LTT 17095 AC+80:7 NN 3015 B 00 10 48 +80 23.1 0.294 56. m 17.4 P 061. 13. r 16.3 P d G242-048 V354B LP 12-304 sep 12.5" 127d (NLTT) d(R) = 4.2, d(pg) = 4.3 NN 3016 00 11 42 -13 27.1 0.911 217.7 DC8 15.90 +0.58 -0.27 050.8 07.8 050.8 07.8 14.43 d G158-045 1044 W LP 704-001 GJ 1005 AB 00 12 53 -16 24.3 0.863 133.6 -29. M4 K 12.03 +1.72 J+1.26 J+1.21 J 188.7 08.4 188.7 08.4 13.41 a -7 -27 +23 G158-050 1047 L 722-22 Hei 299 sep 0.14" V(AB) = 11.50 d(m) = 0.5 : NN 3017 00 13 06 -30 02.7 0.13 135. dM3.4 14.31 +1.57 +0.82 +1.33 056. 11. r 13.05 d GR 4 Gl 12 00 13 12 +13 16.4 0.695 62.7 dM3.5 K 12.58 +1.66 +1.33 +1.12 086.3 06.8 086.3 06.8 12.26 b G030-055 1050 LP 462-42 L 1154-029 NN 3018 A 00 13 26 -68 16.4 0.628 103.8 m 10.95 +0.82 050. 06. r 9.44 c 1051 LFT 24 LTT 118 L 86-66 NN 3019 B 00 13 17 -68 16.0 0.628 103.8 m 12.5 * +1.04 050. 06. r 11.0 * c 1049 LFT 25 LTT 119 L 86-67 sep 48" 288d NN 3020 00 13 33 -48 32.1 0.238 198. M5 S 11.54 +1.46 +1.01t 064. 14. r 10.57 d LTT 123 L 290-72 BPM 30080 CFS 56 Sm 156 GJ 1006 A 00 13 36 +19 35.6 1.037 137.5 M4 K 12.27 +1.50 +1.0 : +1.25 065.5 01.6 065.5 01.6 11.35 a G032-006 107 LP 404-61 L 1226-9 GJ 1006 B 00 13 38 +19 35.8 1.037 137.5 M4.5 K 13.22 +1.60 +1.2 : +1.26 065.5 01.6 065.5 01.6 12.30 a G032-007 108 LP 404-62 L 1226-8 Wo 9006 00 13 46 +15 38.5 0.257 54. m 14.8 P 043.3 10.2 043.3 10.2 13.0 P e LTT 10091 MW 412-30 NN 3021 00 13 56 -80 07.7 0.46 99. G6 V 6.60 052. 12. r 5.2 e 1237 CP-80 7 LTT 127 CD-80:9 NN 3022 00 14 21 +19 47.2 0.244 84. m 13.77 +1.20 045. 08. r 12.04 d G131-047 LTT 10097 L 1226-7 LP 404-66 GJ 1007 00 14 22 +04 51.3 0.635 185.0 m 13.79 +1.62 +1.30 056.6 04.5 056.6 04.5 12.55 b G031-039 1052 LTT 10099 Gl 13 00 14 24 -52 55.9 0.361 61.0 -14.3 SB G2 V 6.84 +0.64 +0.06 +0.38C 067.4 11.9 067.4 11.9 5.98 d -29 +4 +5 1273 CP-53 42 Gl 14 00 14 26 +40 40.2 0.562 79.7 +3.0 VAR dM0.5 W 9.00 +1.36 +1.18 +0.61 071.0 04.6 071.0 04.6 8.26 b -35 -13 +0 BD+40 45 G171-044 1053 V084 NN 3023 p 00 14 41 +28 54.0 0.791 57.5 M2 K 11.55 +0.90 031.5 24.1 051. 08. r 10.09 d G130-061 1054 LTT 10100 LFT 29 Ross 680 NN 3024 00 14 54 -09 01.0 0.388 107. M0 L 12.49 +1.57 +1.25 046.6 06.0 046.6 06.0 10.83 c G158-051 LTT 137 L 866-24 LP 704-74 NN 3025 p 00 15 07 -08 57.7 0.270 86. dM0 M 11.00 +1.42 +1.20 +0.73 036.6 05.0 036.6 05.0 8.82 c BD- 9 40 G158-052 V355 LTT 141 L 866-22 NN 3026 00 15 22 -18 11.4 0.223 71. m 13.20 +1.58 +1.08 039. 08. r 11.16 d G266-083 LTT 146 L 722-46 LP 764-92 Wo 9008 q 00 15 25 -13 44.0 0.404 89.4 +28.2 G2 V 6.50 +0.59 +0.13 032.0 09.3 042. 07. r 4.62 d -40 -14 -33 1388 BD-14 42 LTT 145 Gl 15 A 00 15 31 +43 44.4 2.912 81.8 +12.0 SB M2 V 8.08 +1.56 +1.22 +0.88 289.5 04.9 289.5 04.9 10.39 a -48 -11 -4 1326 BD+43 44 G171-047 3 V085 GX And Gl 15 B 00 15 31 +43 44.4 2.912 81.8 +11.3 M6 Ve 11.06 +1.79 +1.39 +1.24 289.5 04.9 289.5 04.9 13.37 a -47 -12 -3 G171-048 4 GQ And Gl 16 p 00 15 42 +09 55.5 0.02 180. dM0 M 10.90 +1.50 +1.20 +0.89 035.9 06.0 035.9 06.0 8.68 d V356 AC+09:2-34 Gl 16.1 00 16 07 -08 19.7 0.443 108.6 -10.4 G5 IV-V 6.46 +0.68 +0.29 +0.22 051.4 20.5 051.4 20.5 5.0 f -26 -33 +1 1461 BD-08 38 NN 3027 00 16 16 +27 32.3 0.402 105. m 13.86 +1.25 052. 09. r 12.44 d G130-063 LTT 10112 LP 292-66 GJ 1008 00 16 33 -10 14.3 0.276 200. K7 V 9.94 +1.33 +1.16 +0.59 046. 08. r 8.25 d BD-10 47 G158-059 U 3 Gl 17 00 17 29 -65 10.1 2.072 55.7 +9.0 F9 V 4.22 +0.58 +0.02 +0.22 139.0 10.1 139.0 10.1 4.94 b -60 -4 -38 1581 CP-65 13 5 ZET Tuc GJ 2003 00 17 36 -17 20.3 0.180 65. M1 s 11.69 +1.55 +1.18 +0.84 041. 07. r 9.75 d BPM 70147 GR7 NN 3028 00 17 48 +32 49.3 1.362 129.2 -30. M6 g 16.05 +1.98 079.9 03.7 079.9 03.7 15.56 b -26 -73 -37 112 LP 292-67 RV G&L ApJ 305, 784 Gl 17.1 00 18 52 -46 00.7 0.791 174.2 +2.5 M1 K 10.40 +1.48 +1.21 +0.76 049.7 06.7 049.7 06.7 8.88 c +27 -68 +20 CP-46 29 1061 NN 3029 00 19 15 -46 21.4 0.483 216.8 M3: K 12.29 +1.46 +1.11t 059. 14. r 11.1 e 5004a L 290-28 LTT 183 Sm 163 R-I = +1.42 Weistrop NN 3030 00 19 16 +48 56.0 0.220 98. m 12.84 +1.08 045. 09. r 11.11 d LP 149-56 GJ 1009 00 19 27 -31 41.0 0.13 163. dM2 11.16 +1.48 +1.08 +0.96 069. 13. r 10.35 d BPM 46239 NN 3031 00 19 37 +42 20.3 0.321 213. DC9 16.50 +0.72 -0.16 042. 04. w 14.62 c G171-052 W459 Gl 17.2 s 00 19 52 -27 18.3 0.476 149.3 +0.4 K3 V 8.30 +0.90 +0.62 +0.32 047.6 11.4 039. 06. r 6.26 d -1 -58 -4 1815 CD-27 101 G266-100 LTT 190 Gl 17.3 00 20 18 -12 29.2 0.396 80.6 -2.6 G2 V 6.38 +0.66 +0.22 +0.23 048.6 10.0 053. 08. r 5.00 d -33 -13 +0 1835 BD-13 60 BS 88 GJ 1010 A 00 20 41 +76 54.7 0.800 273.0 k-m 11.30 +1.49 +1.17 +0.89 063.7 05.3 063.7 05.3 10.32 b G242-051 1065 LP 12-361 GJ 1010 B 00 20 43 +76 54.8 0.800 273.0 m 14.0 : +1.21 063.7 05.3 063.7 05.3 13.0 : b G242-052 1066 LP 12-362 sep 11" 64d (LHS) GJ 2004 00 20 46 -33 26.8 0.147 332.5 K3/4 V 8.75 +1.07 +0.90 +0.39 043. 05. r 6.92 c 1910 CD-33 118 LTT 198 NN 3032 p 00 20 50 -51 10.3 0.555 91.5 M4 S 11.88 +1.48 +1.00 015.1 17.0 055. 11. r 10.58 d CD-51 89 1064 LTT 197 LFT 39 GJ 1011 00 20 52 +24 01.5 0.259 298. k-m 14.27 +1.59 +1.22 +1.28 061.1 04.1 061.1 04.1 13.20 b G130-066 Gl 18 00 21 53 -27 18.3 0.679 82.4 +3.7 K3 V 7.92 +0.95 +0.66: +0.36 081.2 29.2 052. 08. r 6.50 d -57 -23 -10 2025 CD-27 108 G266-107 1067 NN 3033 00 21 55 +29 45.8 0.605 90.2 m 14.54 +1.67 +1.40 053.0 05.1 053.0 05.1 13.16 c G130-068 1068 GJ 2005 00 22 12 -27 26.0 0.614 354.9 -220. M5.5 15.42 +1.78 132.8 9.1 132.8 9.1 16.04 b -29 +8 +219 1070 pi(trig) in PASP 98,658 (86) NN 3034 00 22 45 +22 37.0 0.520 204.7 m 14.3 * +1.30 053. 09. r 12.9 * d G131-066 1073 LTT 10142 L 1298-103 LP 349-18 Gl 19 00 23 09 -77 32.1 2.250 81.6 +22.9 G2 IV 2.80 +0.62 +0.10 +0.23 155.4 09.3 155.4 09.3 3.76 b -51 -42 -29 2151 CP-77 16 6 BET Hyi Gl 20 00 23 45 -43 57.4 0.112 70.2 +11.3 A7 Vn 3.94 +0.17 +0.10 071.2 11.9 071.2 11.9 3.20 d -5 -4 -12 2262 CD-44 101 KAP Phe Gl 21 00 24 00 +69 52.1 0.230 219. dM0 M 10.52 +1.49 +1.22 +0.82 054.4 06.1 054.4 06.1 9.20 c V357 AC+69:173 NN 3035 00 24 22 +49 25.5 0.477 123.6 m 14.25 +1.28 047.1 03.1 047.1 03.1 12.62 b G217-051 6 GJ 1012 00 26 08 -06 55.8 0.870 202.3 +51. M4 K 12.19 +1.48 +1.05 +1.19 074.8 05.6 074.8 05.6 11.56 b +38 -12 -64 G031-053 1084 NN 3036 00 26 09 +50 05.9 0.440 74. m 13.15 +1.26 076. 13. r 12.55 d G172-001 GJ 1013 00 29 02 -06 07.9 1.098 163.1 m 12.75 +1.64 +1.20 +1.16 061.6 04.8 061.6 04.8 11.70 b G158-095 113 Gl 22 AC 00 29 20 +66 57.8 1.748 097.8 -4.0 dM2.5e W 10.38 +1.54 J+1.16 J+0.99 J 100.6 02.2 100.6 02.2 10.39 a -68 -44 -18 BD+66 34 G243-030 114 V547 Cas V(AB) = 10.34 d(m) = 3.7 sep (AC) 0.4" d(K) = 1.94 Gl 22 B 00 29 20 +66 57.8 1.748 097.8 dM3.5 K 12.4 * 100.6 02.2 100.6 02.2 12.4 * a 115 sep(AC-B) 4" d(K)(AC-B) = 1.35 NN 3037 00 29 34 -03 10.7 0.653 76.7 g-k 17.34 043.1 01.0 043.1 01.0 15.51 a 1093 LP 645-46 NN 3038 p 00 29 56 -63 21.9 0.518 101.7 K7 S 9.61 +1.35 +0.63 034.3 04.9 034.3 04.9 7.29 d CP-63 51 1094 CD-63:9 LTT 288 LFT 49 NN 3039 00 30 00 +07 13.0 0.186 111. m 12.70 +1.24 086. 16. r 12.37 d LP 525-39 Wo 9015 A 00 30 28 -63 18.4 0.092 111.7 +5.0 A0 V 5.75 +0.04 J+0.02 J 047.8 08.0 047.8 08.0 4.15 d -4 -9 -3 3003 CP-63 52 BS 136 V(AB) = 5.09 d(m) = 0.2 Wo 9015 B 00 30 28 -63 18.4 0.092 111.7 A 6.0 * 047.8 08.0 047.8 08.0 4.4 * d sep 0.1" 143d NN 3040 00 31 30 +70 55.5 0.596 120.0 k-m 13.52 +1.65 +1.17 050.5 03.1 050.5 03.1 12.04 b G242-060 1101 LP 28-158 Wo 9016 s 00 31 43 +47 38.4 0.410 80.2 -10.5 F8 H 7.37 +0.54 +0.02 043.6 13.6 020. 03. s 3.88 d -80 -55 +12 3079 BD+47 138 G171-064 LTT 10192 Gl 22.2 00 32 05 -52 39.0 0.233 80.5 +34.8 F3 IV-V 5.57 +0.46 -0.02 +0.26C 049.0 15.3 049.0 15.3 4.0 e -11 -20 -34 3158 CP-53 117 Gl 23 A 00 32 40 -03 52.1 0.411 92.9 +11.2 SB F6 V 5.65 +0.57 J+0.07 J+0.32CJ 061.4 03.8 061.4 03.8 4.59 b -28 -13 -13 3196 BD-04 62 BS 142 ADS 490 V(AB) = 5.20 d(m) = 0.73, SBO Gl 23 B 00 32 40 -03 52.1 0.411 92.9 +8.8 SB G1 V 6.4 * 061.4 03.8 061.4 03.8 5.3 * b -28 -14 -11 sep 0.3" GJ 1014 00 33 16 +10 12.4 1.186 110.5 15.32 +1.89 +1.50 064.0 05.2 064.0 05.2 14.35 b G032-035 117 NN 3041 00 33 18 -48 16.5 0.111 150.2 +7.6 F6 V 5.51 +0.44 -0.01 040. 05. r 3.52 c +2 -15 -3 3302 CD-48 121 CP-48: 51 NN 3042 00 33 26 +45 14.5 0.298 242. M2 L 11.71 +1.54 +0.98 058. 11. r 10.53 d G172-013 NN 3043 00 33 49 +08 36.0 0.042 190.3 G5 7.87 046. 04. o 6.18 b 3335 BD+08 80 Gl 24 A s 00 34 14 -49 24.3 0.407 108.5 -3.0 SB G3 V 6.79 +0.64 +0.12* +0.22 037.6 11.9 033. 04. r 4.38 c -39 -43 +7 3405 CD-49 141 Gl 24 B s 00 33 40 -49 24.1 0.410 109.4 +4.7 K0 V 8.37 +0.78 +0.43* +0.26 077.4 11.9 033. 04. r 5.96 c -37 -46 +0 3359 CD-49 138 Gl 25 A 00 34 47 -25 02.5 1.394 90.3 +18.6 SB G7 V 6.23 +0.72 J+0.20 J+0.27 J 072.1 08.7 072.1 08.7 5.52 c -77 -47 -24 3443 CD-25 225 118 BS 159 ADS 520 LTT 328 V(AB) = 5.57 d(m) = 0.21, SB2 Gl 25 B 00 34 47 -25 02.5 1.394 90.3 +25.0 G8 V 6.4 * 072.1 08.7 072.1 08.7 5.7 * c -77 -46 -30 sep 0.5" GJ 2010 00 34 56 -21 10.1 0.316 229. DA7 14.53 +0.45 -0.57 062. 07. w 13.49 c G266-141 W285 NN 3044 00 35 28 +52 03.6 0.250 192. M0 L 10.48 +1.42 +1.27 +0.66 044. 07. r 8.70 d G218-005 NN 3045 00 35 48 +51 11.4 0.270 277. m 12.60 +1.07 049. 10. r 11.05 d G172-015 Gl 26 00 36 13 +30 20.5 1.561 088.3 -0.2 dM4 W 11.06 +1.53 +1.08 +1.00 079.5 02.2 079.5 02.2 10.56 a -80 -48 -2 G069-010 119 AC+31:719 NN 3046 00 36 40 +60 16.9 0.294 211. m 12.83 +1.03 039. 08. r 10.79 d G217-061 LTT 10222 Wolf 10 Gl 27 00 36 45 +20 58.9 0.588 231.2 -32.9 K0+ V 5.85 +0.85 +0.57 +0.28 095.1 06.0 095.1 06.0 5.74 b +38 -20 +9 3651 BD+20 85 1116 Gl 27.1 p 00 37 34 -44 31.5 0.546 115.5 M0.5 K 11.40 +1.49 +1.1 +0.83 031.1 16.0 043. 08. r 9.57 d CD-44 170 1122 Gl 27.2 00 38 02 -24 04.4 0.722 117.0 -50.4 G3 V 6.15 +0.71 +0.21 +0.26 040.1 07.3 040.1 07.3 4.17 d -44 -76 +45 3795 CD-24 263 G266-152 1124 LTT 357 Gl 28 00 38 04 +39 55.3 0.746 152.4 -64.2 K2 Ve 7.36 +0.94 +0.72 +0.31 058.5 09.6 058.5 09.6 6.20 d +19 -82 -26 3765 BD+39 154 G132-015 1125 Gl 29 00 38 06 -59 44.1 0.990 62.8 +1.5 G1 V 5.90 +0.56 +0.01 +0.18 056.7 08.2 056.7 08.2 4.67 d -78 -12 -25 3823 CP-60 46 1123 NN 3047 00 38 16 +31 06.8 0.319 188. m 13.83 +1.25 053. 10. r 12.45 d G069-011 GJ 1015 A s 00 38 28 +55 33.6 0.313 104. m 14.02 +1.55 043.3 03.6 043.3 03.6 12.20 b G218-007 GJ 1015 B s 00 38 29 +55 33.7 0.313 104. DQ5 14.08 +0.02 -0.81 043.3 03.6 043.3 03.6 12.26 b G218-008 W245 GJ 2012 00 38 58 -22 37.2 0.567 229.0 DQ9 14.53 +0.62 -0.14 +0.29 100.8 11.4 100.8 11.4 14.55 c G266-157 1126 W246 GJ 1016 00 39 05 -33 53.9 0.450 237. k 10.60 +1.40 +1.17 +0.70 045. 07. r 8.87 d CD-34 239 G267-156 BPM 46556 GJ 1017 x 00 39 45 -52 38.5 0.736 117.4 m 12.25* +0.37 045.7 11.0 045.7 11.0 10.5 * e 1129 GJ 1018 00 39 53 -36 59.5 0.18 293. m 12.65: +1.54 +1.11 054. 11. r 11.31: d G267-158 BPM 46562 LP 937-95 Gl 29.1 00 40 05 +35 16.4 0.266 70. -0.5 SB dM0 e W 10.52 +1.50 +1.08 +0.88 047.2 11.9 047.2 11.9 8.9 e -24 -10 +7 BD+34 106 V087 FF And Gl 30 00 40 52 +33 34.6 0.406 209.3 -34.7 dK5 W 8.73 +1.12 +1.09 +0.44 054.7 07.0 054.7 07.0 7.42 c +39 -29 -9 BD+33 99 G069-015 V361 GJ 1019 s 00 40 56 +28 11.1 1.062 187.0 m 14.52 +1.59 +0.79 +1.21 051.9 05.0 051.9 05.0 13.10 c G069-016 120 NN 3048 s 00 41 02 +23 36.9 0.213 149.9 dM0 M 10.97 +1.34 +1.10 +0.63 042.3 05.0 042.3 05.0 9.10 c BD+23 97 G069-017 V362 Gl 31 00 41 05 -18 15.6 0.234 81.0 +13.3 K1 IIIe 2.04 +1.01 +0.88 054.5 08.5 054.5 08.5 0.72 d -19 -6 -13 4128 BD-18 115 BET Cet NN 3049 00 41 05 -41 33.6 0.744 222.5 M4 K 13.1 * +1.33 101. 16. r 13.1 * d 1134 LFT 69 LTT 400 L 363-38 LP 989-140 NN 3050 q 00 41 36 +75 39.9 0.395 103.2 -8.4 G8 K 7.19 +0.75 +0.40 023.2 08.3 048. 08. r 5.60 d -29 -25 -12 4075 BD+75 36 G242-067 LTT 10255 NN 3051 00 41 42 +12 20.8 0.330 127. m 12.79 +1.49 +1.02 +1.15 055. 11. r 11.49 d G032-044 LP 465-77 LTT 10259 NN 3052 00 41 42 +08 51.2 0.809 91.5 m 13.8 * +1.35 081. 12. r 13.3 * d G001-018 1137 LTT 10257 Wo 9024 s 00 41 58 -26 47.5 0.345 62.4 +55.4 G5 V 7.79 +0.67 +0.17 039.8 18.8 028. 05. r 5.03 d -57 -3 -56 4208 CD-27 223 G267-162 LTT 410 Gl 31.2A 00 42 07 -19 13.4 0.350 60. +27.0 dM2 W 10.78 +1.44 +1.11 +0.66 056.4 18.8 041. 08. r 8.84 d -42 +2 -25 BD-19 111 G268-037 V088 Gl 31.2B 00 42 05 -19 13.7 0.350 60. m 16.3 P 056.4 18.8 041. 08. r 14.4 P d V088B LP 766-10 sep 34" 239d d(pg) = 5.3, d(R) = 4.9 (NLTT) Gl 31.3 00 42 16 -22 16.8 0.107 324.6 +13.2 F2 V 5.23 +0.34 +0.10: +0.21C 046.3 11.9 046.3 11.9 3.6 e +0 +12 -12 4247 CD-22 239 NN 3053 00 42 29 -15 32.3 0.662 151.8 m 14.2 * +1.37 072. 11. r 13.5 * d G268-038 1140 Gl 31.4 00 42 31 +01 31.2 0.572 185.3 +9.9 K2 V 8.01 +1.00 +0.90 +0.35 043.2 13.6 051. 07. r 6.55 c +27 -32 -34 4256 BD+01 131 G001-020 1141 Gl 31.5 00 42 32 -65 54.8 0.760 167.0 +97.7 G3 V 6.54 +0.65 +0.12 +0.24 050.4 09.5 049. 08. r 4.99 d +49 -107 -32 4308 CP-66 53 1139 LTT 416 GJ 1020 00 42 58 -13 09.1 0.202 190.9 -12.8 G0 V 6.15 +0.61 +0.10 050. 08. r 4.64 d +14 -16 +8 4307 BD-13 128 LTT 421 BS 203 NN 3054 00 43 12 -51 54. 0.094 124. M3 S 11.91 +1.48 +0.91t 043. 09. r 10.08 d BPM 16228 Sm 173 Gl 32 A 00 43 25 -42 10.9 0.312 104.1 -26.3 K5 V 8.41 +1.17 +1.14 +0.49 081.4 09.8 081.4 09.8 7.96 c -17 -8 +26 4378 CD-42 249 Gl 32 B 00 43 25 -42 10.9 0.262 114.1 -22.6 K7 V 9.06 +1.27 +1.18 +0.57 081.4 09.8 081.4 09.8 8.61 c -12 -8 +23 GJ 1021 00 43 25 -47 49.6 0.202 65.1 -11.4 G5 IV 5.80 +0.64 +1.70C +0.22 048.1 18.8 048.1 18.8 4.2 f -22 +0 +7 4391 CD-48 176 BS 209 NN 3055 00 44 27 -26 24.6 0.286 47. M3 : K 13.98 +1.64 +1.24 040. 19. r 12.0 f G268-046 LTT 442 L 580-29 LP 826-59 NN 3056 00 44 40 -23 46.8 0.207 141. m 14.40 +1.32 054. 09. r 13.06 d G268-047 Wo 9029 A x 00 45 08 -37 12.5 0.393 207.4 -26. F7/8 V 7.85 +0.54 -0.03 +0.21 040.7 10.2 040.7 10.2 5.9 e +37 -19 +33 4597 CD-37 273 G267-171 LTT 449 Wo 9029 B x 00 45 07 -37 13.4 0.396 206. m 15.5 P 040.7 10.2 040.7 10.2 13.5 P e G267-170 L 938-2 sep 57" 193d Gl 33 00 45 45 +05 01.4 1.367 146.4 -10.0 K2 V 5.74 +0.88 +0.58 +0.33 135.9 03.7 135.9 03.7 6.41 a -1 -47 -13 4628 BD+04 123 121 Gl 34 A 00 46 03 +57 33.1 1.213 114.9 +8.2 G3 V 3.45 +0.57 +0.02 +0.22 168.4 03.1 168.4 03.1 4.58 a -30 -11 -15 4614 BD+57 150 123 ETA Cas Gl 34 B 00 46 03 +57 33.1 1.213 114.9 +10.5 K7 V 7.51 +1.39 +1.03 +0.59 168.4 03.1 168.4 03.1 8.64 a -31 -9 -16 122 NN 3057 00 46 06 +26 45.0 0.314 209. M4 12.38 +1.52 +1.20 043. 20. r 10.5 f G069-024 LTT 17156 NN 3058 00 46 10 +44 18.5 0.187 127. m 13.06 +1.16 054. 11. r 11.72 d LP 193-584 Gl 34.1 00 46 21 +16 40.3 0.199 180.8 +3.8 SB F8 V 5.07 +0.51 +0.00 045.6 13.6 055. 05. s 3.77 b +6 -8 -15 4676 BD+16 76 Gl 35 00 46 31 +05 09.2 2.980 155.7 +54. DZ7 12.38 +0.55 +0.02 +0.16 230.9 02.1 230.9 02.1 14.20 a +2 -49 -38 G001-027 7 W005 van Maanen 2 NN 3059 00 46 43 -50 24.9 0.323 131. M2 S 10.75 +1.43 +0.75t 048. 09. r 9.16 d CD-50 210 LTT 464 L 219-8 CFS 223 Sm 174 Gl 36 00 46 57 -23 29.2 0.534 77.8 +5.0 G9 V 7.16 +0.78 +0.32 +0.29 062.5 09.0 062.5 09.0 6.14 d -38 -14 -5 4747 CD-23 315 G268-053 1154 GJ 1022 00 47 18 -61 17.7 1.119 94.0 -2. M6 S 12.16 +1.46 +1.05 +0.99 046. 09. r 10.47 d -94 -67 +5 124 LTT 471 L 123-30 Sm 176 Gl 37 00 47 37 -10 54.8 0.322 225.5 +8.2 SB? F7 IV-V 5.17 +0.50 -0.02 +0.29C 061.8 07.2 061.8 07.2 4.12 c +23 -2 -13 4813 BD-11 153 PHI(2) Cet BS 235 NN 3060 A 00 47 52 +24 32.7 0.220 102. m 12.7 +1.21 J 071. 14. r 12.0 d LTT 10301 LP 350-20 V(AB) = 12.09 d(m) = 0.3 , V-R = 1.50 Weis NN 3061 B 00 47 52 +24 32.7 0.220 102. m 13.3 * 071. 14. r 12.6 * d LP 350-19 sep 1" 315d d(R) = 0.3 d(pg) = 0.3 (NLTT) NN 3062 s 00 47 54 -27 42.6 0.166 65.8 A3 9.60 +0.89 +0.40 040.9 20.5 020. 03. r 6.11 d CD-28 258 Gl 38 00 48 23 +58 01.5 1.549 075.9 -16.6 dM2 W 10.67 +1.39 +0.69 053.5 03.4 053.5 03.4 9.31 b -104 -84 +34 G218-017 126 AC+57:5559 Wolf 33 Gl 39 00 48 43 +18 28.3 0.270 173.3 +6.5 dK6 W 9.24 +1.21 +1.18 +0.49 046.1 13.3 048. 08. r 7.65 d +5 -13 -24 4913 BD+17 112 G032-054 V001 GJ 2015 s 00 48 56 -27 39.5 0.016 115.6 K0 10.41 +1.08 +0.92 064.9 20.5 021. 04. r 7.02 d CD-28 262 Gl 40 A 00 49 04 -23 10.8 0.681 114.1 +15.4 K5 V 8.96: +1.29 +1.12 +0.55 069.2 07.5 069.2 07.5 8.16: c -26 -38 -17 4967 CD-23 332 G268-060 1159 V089 Gl 40 B 00 49 06 -23 10.7 0.678 113.5 m 17.3 P 069.2 07.5 069.2 07.5 16.5 P c 1160 V089B LP 826-170 sep 17" 71d d(pg) = 7.5 d(R) = 7.2 (NLTT) Gl 41 00 50 04 +60 51.0 0.193 340.5 +20.8 F8 V 4.82 +0.53 +0.12 064.9 15.3 076. 12. r 4.22 d -8 +20 +11 5015 BD+60 124 NN 3063 00 50 06 -41 31. 0.059 212. M3 S 11.92 +1.49 +0.90t 042. 08. r 10.04 d Sm 177 Gl 42 00 50 34 -30 37.7 0.622 85.9 -7. SB K3 V 7.17 +0.93 +0.68 +0.33 089.0 23.8 069. 11. r 6.36 d -38 -20 +7 5133 CD-31 325 G269-049 1163 GJ 1023 A x 00 51 05 +68 46.6 0.094 253.9 G0 9.7 +0.55 +0.07 053.3 28.0 053.3 28.0 8.3 f 5109 BD+68 58P ADS 737 GJ 1023 B x 00 51 07 +68 46.6 0.090 250.6 10.4 +0.64 +0.16 053.3 28.0 053.3 28.0 9.0 f BD+68 58S Gl 42.1 s 00 52 19 +23 49.9 0.249 226.1 -8.6 G5 H 7.38 +0.65 +0.10 049.4 18.8 032. 04. r 4.91 c +35 -4 -15 5294 BD+23 125 Gl 43 s 00 53 10 -52 06.5 0.47 41. m 12.36 +1.51 +1.19C 061.6 13.6 061.6 13.6 11.31 d L 220-80 Sm 178 NN 3064 00 53 20 -11 44.1 0.451 348. DA7 15.25 +0.35 -0.48 043. 07. w 13.42 d G270-098 W LTT 524 L 796-10 LP 706-65 NN 3065 p 00 53 23 -29 56.9 0.452 64.5 +9.5 K5 V 9.48 +1.18 +1.14 +0.47 020.8 20.5 040. 06. r 7.49 d -53 -8 -10 5425 CD-30 277 G269-058 V219 CP-30:90 LTT 525 RGO 8349 Mich : K4 III ?? NN 3066 s 00 53 42 +68 46.6 0.749 107.3 -49.4 K4 V 9.10 +1.03 +0.88 +0.41 043.4 10.8 037. 05. r 6.94 c -51 -89 -32 5351 BD+68 60 G242-073 1167 V363 LTT 10329 NN 3067 x 00 53 54 -28 24.5 0.16 136. 10.96 +0.96 +0.72 +0.38 043.9 20.5 043.9 20.5 9.2 f CD-28 291 G269-061 GJ 1024 00 53 58 +17 11.6 0.728 113.9 m 13.71 +1.64 +1.31 +1.26 057.4 04.5 057.4 04.5 12.50 b G032-059 1168 Gl 44 s 00 54 48 -02 05.0 0.321 238.2 -47.8 K1 K 9.46 +0.86 +0.48 +0.43C 070.0 10.2 070.0 10.2 8.69 d +33 -15 +38 BD-02 129 G070-024 Gl 45 00 55 10 -62 31.0 1.035 82.9 +11.0 K7 V 9.50 +1.30 +1.25 +0.54 059.9 08.2 059.9 08.2 8.39 c -69 -44 -13 5633 CP-62 75 128 U011 L 123-59 CD-62:39 Sm 181 Gl 46 00 55 58 -28 07.3 1.305 102.7 +43. M3.5 11.77 +1.57 +1.14 +1.19 071.7 14.5 071.7 14.5 11.05 d -60 -64 -40 CD-28 302 G269-063 129 GJ 2017 x 00 57 26 -25 51.6 0.050 225.1 G0 9.87* +0.50* 057.9 20.5 057.9 20.5 8.7 * f CD-26 322 Gl 46.1 00 57 36 +17 55.8 0.095 167.0 -36.7 G5 H 7.33 +1.07 +0.94 050.8 11.9 050.8 11.9 5.9 e +17 -27 +20 5857 BD+17 135 probably no dwarf NN 3068 00 57 38 +66 40.8 0.270 257. m 13.28 +1.14 045. 09. r 11.55 d LP 51-17 GJ 2018 s 00 57 51 -25 53.0 0.426 95. K2 9.95 +1.11 +1.05 +0.41 055.9 20.5 027. 03. r 7.11 c CD-26 323 G268-090 LTT 565 GJ 2019 x 00 58 12 -26 54.3 0.120 175.3 K0 10.11 +0.76 +0.28 049.9 20.5 049.9 20.5 8.6 f CD-27 323 Gl 47 00 58 13 +61 06.5 0.840 158. +8.7 dM2.5e W 10.83 +1.57 +0.98 092.4 02.9 092.4 02.9 10.66 a -19 -3 -40 G243-050 1176 AC+60:3496 GJ 1025 00 58 20 -04 43.5 1.326 070.5 +8. 13.32 +1.73 +1.27 +1.20 060. 12. r 12.21 d -101 -26 +10 G070-028 130 Gl 48 00 58 48 +71 25.0 1.783 101.2 +0.8 dM3.5e W 10.04 +1.46 +1.15 +1.08 115.5 04.1 115.5 04.1 10.35 a -61 -38 -11 BD+70 68b G242-076 131 V364 AC+71:532 Wo 9035 x 00 59 04 +81 50.0 0.186 252.2 -50.7 dG2 8.45 +0.60 +0.02 040.2 11.9 040.2 11.9 6.5 e +42 -27 -24 5817 BD+81 27 NN 3069 00 59 04 +53 54.8 0.385 250. m 15.12 +1.84 066. 25. r 14.2 f G218-020 GJ 2020 x 00 59 24 -26 09.3 0.088 183.5 F0 V 9.75 +0.33 +0.01 084.9 20.5 084.9 20.5 9.4 e 6088 CD-26 334 Gl 49 00 59 27 +62 04.5 0.686 84.3 -5.6 SB? K5 V 9.56 +1.50 +1.18 +0.89 112.6 10.0 112.6 10.0 9.82 b -21 -21 +4 BD+61 195 G243-052 1179 V002 LFT 94 Wolf 46 Gl 50 s 00 59 27 -10 08.9 0.566 202.2 -0.4 K5 V 10.50 +1.25 +1.12 +0.54 042.6 11.5 029. 05. r 7.81 d +74 -49 -26 BD-10 216 G270-118 5019 U014 NN 3070 x 00 59 29 -26 01.9 0.13 38. 11.84 +1.23 +0.53 041.9 20.5 041.9 20.5 10.0 f RGO 2913 NN 3071 q 00 59 48 +04 47.4 0.386 54.7 +19.7 K0 K 8.20 +1.00 +0.86 020.9 12.1 043. 08. r 6.37 d -46 +6 -2 6101 BD+ 4 158 G001-043 LTT 10369 NN 3072 p 00 59 54 -10 41.0 0.131 357. -20.0 K7 V U 10.04 +1.35 +1.22 +0.64 019.5 15.3 049. 09. r 8.49 d -2 +6 +23 BD-11 192 V003 U 15 Gl 51 01 00 08 +62 05.8 0.727 82.5 M5 K 13.66 +1.68 +0.79 +1.51 110.9 08.5 110.9 08.5 13.88 b G243-055 1183 Wolf 47 cpm with Gl 49 ? NN 3073 01 00 28 +31 24.9 0.269 85. m 13.64 +1.18 044. 09. r 11.86 d LP 294-40 GJ 1026 A 01 00 32 +19 49.8 0.644 86.2 M1.5 K 11.88: +1.02 J 058.5 06.6 058.5 06.6 10.72: c G033-035 1180 LP 406-76 L 1229-11 LDS 873 V(AB) = 11.35 d(m) = 0.5 : GJ 1026 B 01 00 32 +19 49.8 0.644 86.2 M3.5 K 12.4 * 058.5 06.6 058.5 06.6 11.2 * c 1181 LP 406-77 sep 2" 28d (LHS) GJ 1027 01 01 14 +04 48.3 0.388 52. +61. DA6 13.96 +0.31 -0.57 046.8 03.8 046.8 03.8 12.31 b -42 +6 +1 G001-045 W 7 Wo 9036 s 01 01 59 -25 52.1 0.338 185.7 +2.8 K5 V 9.80 +1.19 +1.14 +0.48 040.7 09.1 035. 05. r 7.52 d +29 -35 -4 6378 CD-26 348 G268-109 V220 LTT 606 GJ 1028 01 02 21 -18 23.9 1.342 071.5 m 14.46 +1.87 +1.50 100.0 05.0 100.0 05.0 14.46 b G268-110 134 Wo 9037 01 02 22 -39 44.9 0.549 196.9 +22.4 G3 IV 7.72 +0.60 -0.03 +0.22 042.1 09.0 042.1 09.0 5.84 d +50 -42 -10 6434 CD-40 239 1188 LTT 610 GJ 1029 01 02 47 +28 13.6 1.906 095.0 m 14.80 +1.89 +1.44 +1.53 079.6 03.6 079.6 03.6 14.30 b G069-047 135 Gl 52 01 03 45 +63 40.2 1.576 77.9 +2.9 K7 V 8.98 +1.30 +1.21 +0.56 067.2 03.4 067.2 03.4 8.12 b -90 -59 +30 BD+63 137 G243-060 136 V365 GJ 1030 01 04 03 +15 00.5 0.320 199. k-m 11.43 +1.47 +1.23 +0.93 063.4 06.0 063.4 06.0 10.44 c G033-036 Gl 52.1 s 01 04 35 -51 15.5 0.497 88.6 +8.7 K1 V 8.85 +0.94 +0.69: +0.34 047.0 08.5 047.0 08.5 7.21 d -40 -31 -5 6673 CD-51 273 1193 NN 3074 01 04 52 -32 41.6 0.18 :176. m 10.76 +1.38 +1.22 +0.70 042. 07. r 8.88 d CD-33 408 G269-104 L 509-35 Gl 53 A 01 04 56 +54 40.5 3.770 114.7 -98.1 SB G5 VI 5.17 +0.69 +0.09 +0.28 134.5 02.9 134.5 02.9 5.81 a -41 -156 -34 6582 BD+54 223 8 MU Cas LTT 10400 Gl 53 B 01 04 56 +54 40.5 3.770 114.7 11. : 134.5 02.9 134.5 02.9 12. : e Gl 52.2 s 01 04 56 +33 56.1 1.464 069.9 M3 K 13.35 +1.59 +1.18 044.5 03.5 044.5 03.5 11.59 b G132-057 137 Ross 322 Gl 53.1A 01 04 56 +22 41.7 0.500 168.2 +6.7 K4 V 8.41 +1.12 +1.06 +0.43 052.1 08.8 047. 05. r 6.77 c +5 -29 -41 6660 BD+22 176 G034-002 5027 V367 Gl 53.1B 01 04 56 +22 41.7 0.500 168.2 M3 K 13.60 +1.16 052.1 08.8 047. 05. r 11.96 c 5028 GJ 1031 01 05 52 -29 04.3 0.714 100.4 dM5 13.42 +1.70 +1.29 076. 13. r 12.82 d G269-106 1197 Gl 53.2 s 01 06 01 +16 59.1 0.583 187.6 -36.0 dK6 W 10.55 +1.27 +1.23 +0.56 045.0 15.3 031. 06. r 8.01 d +58 -67 -37 BD+16 120 G033-040 1199 NN 3075 01 06 04 -10 26.8 0.252 122.3 +12.9 K1.5 III 3.45 +1.16 +1.19 040.6 08.9 040.6 08.9 1.49 d -15 -24 -15 6805 BD-10 240 FK 40 LTT 645 ETA Cet Wo 9043 s 01 06 35 -31 11.7 0.223 125.3 +7.9 G8/K0 V 9.10 +0.79 +0.37 +0.40C 039.7 11.9 021. 03. r 5.71 d -17 -48 -3 6880 CD-31 455 G269-109 LTT 646 GJ 1032 01 06 47 -24 57.4 0.255 86. dM2 12.38 +1.53 +1.28 +1.06 052. 10. r 10.96 d G268-130 PS 130 LP 826-605 TS 335 GJ 2021 01 06 53 -24 46.3 0.265 132. m 14.52 +1.38 065. 09. r 13.58 d G268-131 PS 131 LP 826-603 TS 336 Gl 53.3 01 06 55 +35 21.4 0.208 121.6 -0.8 M0 IIIe 2.05 +1.57 +1.96 048.7 07.5 048.7 07.5 0.49 d -11 -15 -8 6860 BD+34 198 BET And Gl 54 01 08 34 -67 43.1 0.718 034.0 +26.1 k 9.80 +1.54 +1.17 +1.08 120.9 09.0 120.9 09.0 10.21 b -16 -10 -34 CP-68 41 1208 NN 3076 01 08 46 +15 10.5 0.215 125. m 14.36 +1.55 118. 21. r 14.72 d LP 467-16 L 1157-47 LTT 10436 NN 3077 A 01 09 19 +04 39.6 0.623 146.4 m 12.89 +1.62 +1.14 064.6 02.7 064.6 02.7 11.94 a G002-027 1212 G070-043 LTT 10438 NN 3078 B 01 09 21 +04 38.6 0.623 146.4 m 13.91 +1.70 +1.24 064.6 02.7 064.6 02.7 12.96 a G070-044 1213 sep 63.5" 146d NN 3079 01 09 55 -02 07.3 0.05 :180. DAwk 14.09 099. 11. p 14.07 c W GD 806 Gl 54.1 01 09 59 -17 16.4 1.345 062.3 +28.0 dM5 e W 12.05 +1.84 +1.40 +1.41 267.4 03.0 267.4 03.0 14.19 a -28 +0 -24 G268-135 138 LTT 670 L 725-32 NN 3080 01 10 13 +41 23.4 0.324 96.4 G5 7.28 +0.78 +0.31 047. 06. r 5.64 c 7205 BD+40 248 G132-062 LTT 10444 GJ 1033 01 11 00 -23 10. 0.09 88. 14.16 +1.58 +0.96 +1.34 062. 13. r 13.12 d PS 151 BPM 46989 (V, V-I = 14.26, 2.86: PS) NN 3081 01 11 48 -37 12.9 0.745 61.1 dM2.5 13.85 +1.66 +1.34 +1.19 043. 08. r 12.02 d G269-125 1217 Gl 54.2A 01 11 53 -08 11.5 0.303 23.7 +21.2 F5 V 5.14 +0.45 -0.06 +0.16 056.8 06.1 056.8 06.1 3.91 c -26 +17 -11 7439 BD-08 216 Gl 54.2B 01 11 51 -08 10.7 0.312 25.0 +22.1 K1 V 7.85 +0.78 +0.35 +0.27 056.8 06.1 056.8 06.1 6.62 c -27 +17 -12 7438 BD-08 215 G270-176 Wo 9046 x 01 12 11 -42 09.5 0.125 241.8 G0 V 8.47 +0.56 +0.08 042.0 11.9 042.0 11.9 6.6 e 7498 CD-42 432 NN 3082 01 12 30 -54 13. 0.324 21. M3 S 11.09 +1.48 +0.87t 057. 11. r 9.87 d LTT 692 L 221-60 Sm 184 Gl 54.3 01 12 51 -65 01.4 0.353 149.6 K0 IV/V 9.05 +0.76 +0.36 +0.38C 047.5 10.2 047.5 10.2 7.43 d 7621 CP-65 125 Gl 55 01 12 56 -45 47.9 0.688 74.6 +11.6 F8 V 4.96 +0.58 +0.10 +0.30C 065.9 14.9 082. 15. r 4.53 d -36 -18 -11 7570 CD-46 346 1220 NU Phe Gl 55.1A p 01 13 19 -69 05.1 0.414 73.9 K2 V 7.80 +0.98 J+0.82:J+0.46CJ 028.6 22.1 053. 09. r 6.42 d 7693 CP-69 44 V(AB) = 7.24 d(m) = 0.43 cpm with Gl 55.3 Gl 55.1B p 01 13 19 -69 05.1 0.414 73.9 8.2 * 028.6 22.1 053. 09. r 6.8 * d a = 1.078" P = 81.29 yr GJ 1034 s 01 13 40 +24 04.2 1.841 112.2 m 15.04 +1.84 +1.12: +1.28 048.5 05.2 048.5 05.2 13.47 c G034-015 139 Gl 55.2 01 13 54 +25 04.2 0.433 102.0 -30.0 dK5 W 10.08 +1.36 +1.21 +0.62 042. 11. r 8.2 e -20 -52 +15 G069-062 V369 AC+25:4674 Gl 55.3A 01 14 05 -69 08.5 0.422 74.0 +4.0 F6 IV J 4.99 +0.47 J+0.02 J+0.26CJ 050.7 12.3 050.7 12.3 3.5 e -35 -18 -6 7788 CP-69 45 BS 377 KAP(2) Tuc V(AB) = 4.86 d(m) = 2.2 , cpm with Gl 55.1 Gl 55.3B 01 14 04 -69 08.4 0.416 73.4 +4.9 G5 7.2 * 050.7 12.3 050.7 12.3 5.7 * e -34 -18 -7 KAP(1) Tuc sep 5.5" 335d GJ 1035 01 14 18 +83 53.3 1.081 295.1 m 14.77 +1.79 +1.44 073.2 05.0 073.2 05.0 14.09 b G265-008 140 GJ 1036 01 14 57 -35 58.6 0.193 154. m 11.42 +1.53 +1.19 +0.96 063. 12. r 10.42 d CD-36 491 G269-133 Gl 56 s 01 15 05 -15 45.6 0.544 150.1 -8.8 K3 V 9.77 +1.00 +0.76 +0.40 066.3 12.6 026. 04. r 6.84 d +10 -99 -4 7808 BD-16 214 G268-146 1225 U017 NN 3083 01 15 06 +28 24.7 0.459 233.2 M0.5 K 11.56 +0.85 040. 06. r 9.57 d G069-063 6 LTT 10468 Ross 324 LHS. NN 3084 01 15 18 +05 13.1 0.649 171.3 dM2 R 11.05 +0.82 050. 08. r 9.54 d G002-033 1226 LTT 10470 Tou 23.198 GJ 1037 01 15 20 +15 55.1 0.653 181.7 DQ6 13.82 +0.12 -0.80 -0.02 063.8 03.6 063.8 03.6 12.84 b G033-049 1227 W 9 Wolf 1516 Gl 56.1 01 15 47 -13 09.2 0.696 165.8 M3 K 11.76 +1.47 +0.96 045.1 07.6 045.1 07.6 10.03 d G270-188 1228 AC-14:789-106 Gl 56.2 s 01 15 49 -48 24.9 0.25 63. M1 11.55 +1.44 +0.91C 045.6 13.6 030. 05. r 8.94 d CD-48 329 L 293-094 Sm 185 Gl 56.3A s 01 16 06 -01 07.6 0.507 120.3 +18.2 K1 V 8.00 +0.82 +0.44 +0.30 052.8 19.2 039. 05. r 5.96 c -34 -49 -24 7895 BD-01 167 G070-051 1230 Gl 56.3B s 01 16 05 -01 08.0 0.505 121.5 M0 K 10.70 +1.41 +1.17 +0.63 052.8 19.2 039. 05. r 8.66 c G070-050 1229 Gl 56.4 01 16 43 +79 53.5 0.330 108. -14. dK8 M 9.66 +1.29 +1.27 +0.63 040.9 11.9 056. 07. r 8.40 c -16 -25 -10 BD+79 38 G242-078 V091 NN 3085 01 17 00 -26 40.0 0.022 347. m 13.46 041. 04. p 11.52 c PS 176 NN 3086 A s 01 17 10 +38 43.5 0.365 60. dM0 M 11.39 +1.31 +0.58 043.1 11.5 024. 03. r 8.29 c G132-071 V370 NN 3087 B s 01 17 11 +38 43.7 0.365 60. k-m 14.35 +1.14 043.1 11.5 024. 03. r 11.25 c G132-072 V370 sep 11" 41d NN 3088 01 17 28 -27 42.5 0.374 98. m 14.20 +1.22 040. 07. r 12.21 d G269-139 LTT 734 L 581-64 LP 883-185 PS 179 TS 389 NN 3089 s 01 17 42 +38 04.3 0.04 122. dK8 M 10.64 +1.14 +1.17 +0.49 040.3 16.0 024. 03. r 7.54 c V372 Gl 56.5 01 17 50 +76 27.0 0.049 225.9 -21.8 dK0 W 7.11 +0.82 +0.45 041.7 08.5 057. 09. r 5.89 d +14 -15 -8 7924 BD+75 58 Gl 57 01 19 16 -41 54.7 1.345 109.4 +29.0 dM0.5 K 10.14 +1.40 +1.10 +0.69 063.4 13.6 059. 11. r 8.99 d -58 -95 -7 CD-42 469 141 U018 NN 3090 01 19 37 -46 58.5 0.123 236. M3 S 11.36 +1.44 +0.85t 046. 09. r 9.67 d CD-47 399 BPM 30654 SM 186 CFS 383 NN 3091 A 01 19 46 -27 09.1 0.231 198.8 K2 V 8.3 * +0.34 046. 04. r 6.6 * c 8326 CD-27 457 G269-146 LTT 751 NN 3092 B 01 19 48 -27 10.0 0.242 196. m 14.85 +1.41 046. 04. r 13.16 b G274-015 LP 883-221 PS 187 sep 57" 147d 3 NN 3093 A 01 20 12 +00 16.7 0.567 202.4 m 13.97 +1.76 J +1.37 J 069.2 04.6 069.2 04.6 13.17 b G070-055 1240 V(AB) = 13.61 d(m) = 1.02 NN 3094 B 01 20 12 +00 16.7 0.567 202.4 m 15.0 * 069.2 04.6 069.2 04.6 14.2 * b 1241 LP 587-50 sep 2.5" 70d NN 3095 01 20 20 +07 09.3 0.257 21.4 G5 7.33 066. 06. p 6.43 b 8357 BD+ 6 211 LTT 10501 NN 3096 01 20 24 -26 04. 0.119 58.0 m 13.05 045. 06. p 11.32 c PS 190 Gl 57.1A 01 20 33 -13 13.6 0.477 94.3 +30.6 K0 IV 7.85 +0.90 +0.70 +0.28 048.4 13.6 044. 09. r 6.07 d -46 -29 -24 8389 BD-13 249 G272-009 Gl 57.1B 01 20 31 -13 13.1 0.474 94. +58.3 dK7 J K 10.38 +1.38 J+1.26 J+0.71 J 048.4 13.6 044. 09. r 8.60 d -53 -25 -51 G272-008 LP 707-104 L 795-25 sep(A-BC) 42" 316d; V(BC) = 10.29 d(m) = 2.7 Gl 57.1C 01 20 31 -13 13.1 0.474 94. 13.1 * 048.4 13.6 044. 09. r 11.3 * d sep (BC) 1.6" (1942) Wo 9056 s 01 22 10 +18 14.6 0.581 108.8 +7.9 K2 K 8.49 +0.89 +0.59 +0.30 061.0 24.4 033. 05. r 6.08 d -57 -59 -14 8553 BD+17 202 G033-056 1246 LFT 132 GJ 1038 01 22 43 -33 06.8 0.290 60.5 k-m 9.80 +1.45 +1.15 +0.65 059. 09. r 8.65 d CD-33 514 G269-159 BPM 47129 NN 3097 p 01 22 58 +09 30.2 0.478 151.6 dM3.5 K 13.13 +1.68 +1.38 +1.23 031.5 20.5 067. 16. r 12.3 e G002-037 6 LTT 10514 Wolf 66 GJ 1039 01 23 02 -26 16.0 0.551 156.8 DC7 14.95 +0.40 -0.55 054. 05. w 13.61 c G269-160 1247 W307 Gl 58.2 q 01 26 20 +21 28.0 0.499 111.7 +11.3 SB K2 V 7.73 +0.96 +0.68 032.4 10.2 055. 09. r 6.43 d -33 -27 -13 8997 BD+20 226 G034-032 5035 NN 3098 p 01 30 05 -22 09.0 1.062 210.7 M1.5 K 11.21 +1.50 +1.20 +0.84 027.6 10.3 051. 10. r 9.75 d CD-22 526 G272-036 142 LTT 838 LFT 138 L 654-28 Gl 59 A 01 30 53 -24 25.9 0.317 119.7 -49.1 G8 V 6.97 +0.76 +0.32 +0.38C 070.4 08.7 070.4 08.7 6.21 c +0 -17 +51 9540 CD-24 658 G274-063 Gl 59 B 01 30 35 -24 29.7 0.326 118. m 12.77 +1.30 +1.15 070.4 08.7 070.4 08.7 12.01 c G274-060 L 654-050 LTT 840 Gl 59.1 q 01 30 55 +68 41.5 0.399 288.1 -33.4 G6 V 6.53 +0.68 +0.24 038.2 10.2 053. 09. r 5.15 d +48 -6 +2 9407 BD+68 113 G243-070 NN 3099 01 31 17 -44 09.5 0.237 74.6 K0/1 V 7.84 +0.83 +0.50 042. 05. r 5.96 c 9619 CD-44 434 LTT 851 Wo 9057 x 01 31 35 +34 25.4 0.016 42.9 -4.5 F8 9.56 +0.52 +0.02 040.8 15.0 040.8 15.0 7.6 f +2 -3 +3 BD+33 256 NN 3100 s 01 32 39 +41 47.2 0.229 144. dM0 M 10.99 +1.30 +1.26 +0.53 040.6 06.2 040.6 06.2 9.03 d G133-020 V378 Gl 60 A 01 32 42 -30 10.0 0.198 52.6 +34.2 K3 V 7.78 +0.92 J+0.57 J+0.39 J 064.3 18.1 058. 07. r 6.60 c -20 -5 -32 9770 CD-30 529 V(ABC) = 7.10 AB: d(m) = 0.27 Gl 60 B 01 32 42 -30 10.0 0.198 52.6 K4 V 8.0 * 064.3 18.1 058. 07. r 6.8 * c AB: a = 0.171" 4.559 yr Gl 60 C 01 32 42 -30 10.0 0.198 52.6 M2 V 10.4 * 064.3 18.1 058. 07. r 9.2 * c AB-C: a = 1.419" P = 111.8 yr d(m) = 3.19 NN 3101 01 33 42 -27 02. 0.026 11. m 13.33 051. 07. p 11.87 c PS 244 Gl 61 01 33 51 +41 09.4 0.415 204.4 -28.7 F8 V 4.09 +0.54 +0.06 +0.18t 057.4 04.8 057.4 04.8 2.88 b +32 -23 -21 9826 BD+40 332 50 UPS And Gl 62 s 01 34 49 -29 38.8 0.296 102.3 +11.2 K0 V 8.14 +0.86 +0.61: +0.28 045.5 13.7 036. 05. r 5.92 d -26 -31 -4 10002 CD-30 549 G274-074 Gl 63 01 35 07 +56 58.9 0.397 204.4 -17.5 dM3 K 11.19 +1.39 +0.86 090.3 07.9 090.3 07.9 10.97 b +16 -12 -19 G219-015 6 AC+56:13511 NN 3102 p 01 35 15 -49 26.7 0.534 75.2 K7 K 10.5 * +0.72 034.1 18.8 047. 07. r 8.9 * d CD-49 451 1268 CFS 445 CP-49:211 LFT 141 LTT 886 L 294-102 Gl 64 01 35 26 -05 14.7 0.675 121.0 DA7 12.84 +0.35 -0.49 +0.12 081.4 03.4 081.4 03.4 12.39 a G271-115 1270 W011 L 870-002 GJ 1040 s 01 35 32 +44 20.1 0.176 50.5 dK8 M 10.84 +1.20 +0.52 078.0 11.5 025. 03. r 7.83 c V379 AC+44:66-318 NN 3103 01 35 54 +00 23.7 0.529 72.9 k 11.55 +0.93 054. 10. r 10.21 d G071-024 1272 Gl 65 A 01 36 25 -18 12.7 3.368 080.4 +29.0 dM5.5e W 12.57 +1.85 J+1.10 J+1.69 J 380.7 04.3 380.7 04.3 15.47 a -43 -19 -19 G272-061 9 L 726-008 LDS 838 V(AB) = 11.89 d(m) = 0.14 Gl 65 B 01 36 25 -18 12.7 3.368 080.4 +32. dM5.5e W 12.7 * 380.7 04.3 380.7 04.3 15.6 * a -44 -19 -22 10 UV Cet a = 5.57" P = 200 yr NN 3104 01 36 55 +04 48.2 0.168 33. M5 12.83 041. 03. p 10.89 b Rob 72 NN 3105 01 37 24 +31 32.3 0.481 090.7 m 13.91 +1.29 061. 10. r 12.84 d G072-023 5037a LTT 17245 V-R = 1.52 Weis Gl 65.2 s 01 37 37 -46 45.7 0.08 166. +29.4 M0 C 9.86 +1.16 +1.14 +0.57C 065.4 10.2 065.4 10.2 8.94 d +4 -15 -25 CP-47 195 NN 3106 x 01 37 39 +63 33.6 0.013 311.9 -7. B5 10.07 +0.47 +0.23 076.7 25.6 076.7 25.6 9.5 e +5 -5 +0 BD+63 219 Wo 9059 s 01 37 52 +66 39.7 0.748 110.3 +14.4 G5 V 7.68 +0.68 +0.21 042.9 08.5 031. 05. r 5.14 d -99 -57 -18 10145 BD+66 145 G244-031 1283 LTT 10587 LFT 148 Gl 66 A 01 37 54 -56 26.9 0.278 84.6 +19.5 K2 V 5.80 +0.86 +0.57 +0.30 148.9 05.4 148.9 05.4 6.66 a -4 -14 -16 10361 CP-56 329 P Eri CD-56:329 Gl 66 B 01 37 54 -56 26.9 0.278 84.6 +22.5 K3 V 5.90 +0.80 +0.60 +0.31 148.9 05.4 148.9 05.4 6.76 a -3 -16 -18 10360 CD-56 328 not in CpD Gl 67 01 38 44 +42 21.8 0.826 100.4 +3.1 SB G1.5 V 4.95 +0.62 +0.12 +0.21t 073.1 03.9 073.1 03.9 4.27 b -42 -34 +0 10307 BD+41 328 1284 Gl 67.1 01 39 09 -83 13.8 0.18 44. +5.4 G2 V 5.88 +0.61 +0.09 +0.21 058. 09. r 4.70 d -11 -6 -10 10800 CD-83 22 Gl 67.2 x 01 39 28 -45 40.3 0.247 90.2 -4.5 G5 V 9.30 +0.69 +0.25 +0.25 052.9 11.9 052.9 11.9 7.92 d -17 -12 +9 10513 CP-46 177 Gl 68 01 39 47 +20 01.6 0.749 203.5 -33.7 K1 V 5.22 +0.84 +0.50 +0.30 126.5 05.8 126.5 05.8 5.73 b +36 -26 +1 10476 BD+19 279 1287 Gl 69 01 40 12 +63 34.8 0.696 214.6 -50.7 K5 V 8.41 +1.22 +1.13 +0.48 075.1 03.1 075.1 03.1 7.79 a +45 -28 -42 10436 BD+63 229 G244-033 1291 V381 NN 3107 01 40 18 -24 53. 0.035 190. m 12.02 041. 06. p 10.08 d PS 274 NN 3108 01 40 25 +27 35.5 0.552 92.3 K7 s 10.40 +1.46 +1.26 +0.71 052. 08. r 8.98 d BD+27 273 G035-008 1289 LTT 10602 NN 3109 01 40 34 -53 59.4 0.202 119.9 +12.9 F8 V 5.52 +0.53 +0.00 053. 07. r 4.14 c -4 -21 -4 10647 CP-54 365 BS 506 NN 3110 p 01 40 45 -42 27.2 0.686 101.5 M0 K 11.25 +0.78 032.1 15.3 040. 06. r 9.26 d CD-42 594 1288 LFT 157 LTT 927 Gl 70 01 40 46 +04 04.9 0.861 209.5 -25.8 dM2 M 10.93 +1.54 +1.00 113.8 23.9 113.8 23.9 11.21 d +40 -20 +2 G003-014 1290 V093 AC+03:2259-31 NN 3111 01 41 29 -24 06.3 0.046 79. m 13.28 045. 06. p 11.55 c GR 316 PS 279 NN 3112 01 41 36 -67 32.2 1.048 197.8 +51. DA7 13.88 +0.44 -0.42 +0.07 079. 18. w 13.37 d +51 -23 +29 145 W LFT 158 LTT 934 L 88-59 Gl 71 01 41 45 -16 12.0 1.924 296.4 -17.0 G8 Vp 3.49 +0.72 +0.22 +0.26 286.0 04.9 286.0 04.9 5.77 a +18 +28 +13 10700 BD-16 295 146 TAU Cet Gl 73 01 42 18 +16 06.0 0.815 239.7 M3 K 14.11 +1.67 +1.30 061.2 03.9 061.2 03.9 13.04 b G003-017 1292 Wolf 1530 Gl 74 p 01 43 58 +12 09.8 0.078 163.7 +21.9 dK8 M 8.90 +1.05 +0.91 +0.40 038.1 05.4 040. 05. r 6.91 c -10 +1 -21 10853 BD+11 231 V383 Gl 75 01 44 06 +63 36.4 0.636 112.8 +4.0 K0 V 5.63 +0.81 +0.40 +0.26 097.2 04.6 097.2 04.6 5.57 b -26 -16 -6 10780 BD+63 238 1297 NN 3113 01 44 06 -08 53.8 0.434 114.1 M3 K 12.99 +1.58 +1.20 057. 13. r 11.77 d G271-149 6 LTT 952 L 870-44 LP 708-416 NN 3114 01 45 17 +20 57.7 0.417 120. M3 K 12.16 +1.58 +1.03 056. 14. r 10.9 e G034-051 LTT 10622 Wolf 87 Gl 76 s 01 45 20 -26 59.7 0.295 200.4 +25. K1 V 8.98 +0.81 +0.44: +0.28 054.8 13.6 023. 04. r 5.79 d +48 -34 -30 11020 CD-27 605 G274-094 NN 3115 q 01 45 52 +32 26.3 0.349 330. -26.5 F8 V 5.79 +0.55 -0.01 038.6 09.4 049. 06. r 4.24 c +25 +9 +34 11007 BD+31 316 LTT 10624 Gl 77 s 01 46 12 -41 44.7 0.445 69.9 +35.7 G4 V 7.14 +0.65 +0.20 +0.32C 063.3 13.6 037. 07. r 4.98 d -54 -31 -27 11112 CD-42 638 Wo 9061 A 01 47 08 -10 56.0 0.176 239.1 -0.9 F3 III 4.67 +0.33 +0.03 +0.08 044.2 07.5 040. 05. r 2.68 c +20 +3 -6 11171 BD-11 352 Wo 9061 B 01 46 56 -10 57.0 0.175 239.8 -2.5 dG1 6.77 +0.62 +0.12 +0.22 044.2 07.5 040. 05. r 4.78 c +20 +3 -5 11131 BD-11 351 NN 3116 01 47 44 +18 02.9 0.250 105. M0 10.79 +1.38 +1.27 039. 18. r 8.7 f G094-017 LTT 10634 NN 3117 A 01 48 12 +64 11.4 0.280 138. -15. dM2 11.37 +0.98 067. 13. r 10.50 d -3 -22 -12 G244-037 NN 3118 B 01 48 12 +64 11.2 0.280 138. DA6 14.5 : 067. 13. r 13.6 : d G244-036 W268 sep 10" 178d, y = 13.97 b-y = 0.134 -> mod = 1.99 uvby NN 3119 01 48 32 -06 21.8 0.584 113.5 m 14.6 * +1.53 100. 17. r 14.6 * d G159-003 1302 NN 3120 01 48 38 +21 09.1 0.360 180. M4 K 13.90 +1.27 056. 10. r 12.64 d G034-055 LTT 10640 Wolf 90 NN 3121 01 48 56 +46 45.2 0.138 1. +64. DA3 12.44 +0.06 -0.63 061. 07. w 11.37 c -13 +17 +5 W269 GD 279 Gl 78 01 49 19 -11 02.6 0.793 133.7 +0.0 M3.5 K 11.80 +1.50 +0.94 086.0 13.3 086.0 13.3 11.47 d -7 -43 -1 G271-168 1303 Ross 555 Gl 78.1 01 50 13 +29 20.2 0.231 177.0 -16.2 SB F6 IV 3.42 +0.48 +0.06 053.4 10.9 053.4 10.9 2.06 d +14 -21 -8 11443 BD+28 312 ALF Tri NN 3122 01 50 22 +65 55.9 0.135 195.0 G5 8.48 +1.01 +0.97 042. 04. o 6.60 c 11373 BD+65 210 Gl 79 01 50 25 -22 40.9 0.832 89.5 +14.1 K5/M0 V 8.90 +1.41 +1.25 +0.68 083.7 10.6 083.7 10.6 8.51 c -39 -30 -3 11507 CD-23 693 G272-114 1307 V004 Gl 80 01 51 52 +20 33.9 0.144 137.9 -4.0 SB A5 V 2.64 +0.13 +0.10 -0.02 059.0 13.0 059.0 13.0 1.49 d -1 -12 -2 11636 BD+20 306 BET Ari Gl 81 A 01 54 01 -51 51.4 0.743 66.1 -6.3 G5 IV 3.70 +0.85 +0.45 +0.31 054.8 09.0 054.8 09.0 2.39 d -61 -18 +10 11937 CP-52 241 1314 BS 566 CHI Eri Gl 81 B 01 54 01 -51 51.4 0.743 66.1 10.7 * 054.8 09.0 054.8 09.0 9.4 * d sep 5.0" 202d (1947) d(m) = 6.5 Gl 81.1A s 01 54 43 -10 29.0 0.440 238.8 -9.9 G5 IV 6.42 +0.82 +0.46 +0.29 045.1 24.8 033. 15. r 4.0 f +62 +8 -14 11964 BD-10 403 G272-126 LTT 1036 Gl 81.1B s 01 54 45 -10 29.4 0.438 239. -9.0 m 11.21 +1.38 +1.18 045.1 24.8 033. 15. r 8.8 f +61 +8 -15 G272-127 LTT 1039 LP 709-81 L 799-3 Gl 81.2 01 54 52 -60 28.4 0.473 66.6 +0.4 K5 V 8.60 +1.16 +1.11 +0.45 054.4 11.9 057. 09. r 7.38 d -37 -14 +1 12058 CP-60 167 U024 Gl 81.3 s 01 55 06 -52 00.8 0.430 54.0 +3.8 F8 V 6.10 +0.48 -0.04 +0.28C 053.4 11.1 040. 04. s 4.11 c -50 -9 -5 12042 CP-52 242 Gl 82 01 55 54 +58 16.9 0.351 124. -8.8 dM4 e W 12.21 +1.56 +1.28 078.5 04.9 078.5 04.9 11.68 b -9 -20 -6 G219-030 Ross 15 AC+58:13565 Gl 82.1 01 56 10 +32 58.3 0.431 144.9 -35.5 dG7 W 7.14 +0.78 +0.42 051. 08. r 5.68 d +12 -52 -5 12051 BD+32 360 G072-050 GJ 1041 A 01 56 36 +03 16.5 0.291 90.0 k-m 10.98 +1.52 J+0.98 J+1.09 J 093. 18. r 10.82 d BD+02 305 G159-018 V(AB) = 10.91 d(m) = 3. GJ 1041 B 01 56 36 +03 16.5 0.291 90.0 m 14.0 * 093. 18. r 13.8 * d LP 589-9 sep 4" 75d d(R) = 2.6 d(pg) = 3.1 (NLTT) NN 3123 01 56 57 +43 31.2 0.276 155. m 13.01 +1.07 041. 08. r 11.07 d G133-060 NN 3124 01 57 09 +36 25.4 0.268 165. m 13.93: +1.19 040. 08. r 11.94: d G133-061 Gl 83 01 57 12 -61 48.8 0.270 83.0 +15.2 VAR F0 V 2.86 +0.28 +0.14 +0.16C 039.6 08.8 039.6 08.8 0.85 d -23 -27 -6 12311 CP-62 162 ALF Hyi NN 3125 01 57 25 +73 18.1 0.319 104. m 14.12 +1.90 +1.43t 095. 17. r 14.01 d G245-040 LP 30-55 Gl 83.1 01 57 28 +12 50.1 2.097 147.8 -31. dM8 e 12.28 +1.80 +1.35 +1.39 223.8 02.9 223.8 02.9 14.03 a +14 -52 +5 G003-033 11 L 1159-016 NN 3126 01 57 56 +63 31.8 0.290 246. M4 L 11.03 +1.54 +1.07 100. 20. r 11.03 d G244-047 NN 3127 01 58 21 -10 35.5 0.516 223.9 m 14.1 * +1.22 042. 08. r 12.2 * d G272-137 1325 LP 709-16 Wo 9067 A s 01 59 28 +03 42.1 0.482 225.3 -48.0 K4 K 10.62 +1.22 042.2 16.0 026. 04. r 7.69 d +98 -17 -9 BD+03 275 G071-050 5049 LTT 10689 Wolf 109 Wo 9067 B s 01 59 28 +03 42.3 0.482 225.3 M1.5 K 12.4 * 042.2 16.0 026. 04. r 9.5 * d G071-051 5048 LTT 10690 sep 17" 16d (NLTT) NN 3128 01 59 37 +10 06.0 0.715 246.4 m 15.61 +2.02 112.0 01.9 112.0 01.9 15.86 a 1326 LP 469-67 USNO 693 NN 3129 02 00 01 +13 20.3 0.472 103. dM5 : 14.27 058. 06. p 13.09 c G003-035 LTT 10691 L 1159-15 LP 469-73 Rob 100 NN 3130 02 00 49 +35 21.1 0.061 250.8 G5 8.36 078. 08. o 7.82 c 12545 BD+34 363 NN 3131 p 02 01 01 -21 27.8 0.464 209.7 M3 K 11.21 +1.46 +1.00 033.9 23.9 077. 18. r 10.6 e BD-21 368 G272-145 6 LTT 1081 Gl 83.4A s 02 01 55 -45 39.2 0.333 78.6 +42.7 G3 V 7.31 +0.69 +0.22 +0.37C 049.4 11.9 037. 07. r 5.15 d -36 -38 -30 12759 CD-46 604 Gl 83.4B s 02 01 55 -45 39.2 0.333 78.6 11.5 * 049.4 11.9 037. 07. r 9.3 * d sep 1.0" 178d (1932) NN 3132 02 01 57 -02 06.8 0.832 224.2 m 13.9 * +1.22 046. 08. r 12.2 * d G159-034 1332 NN 3133 02 02 35 -15 55.0 0.034 156.0 K0 V 7.78 042. 04. o 5.90 c 12786 BD-16 365 Gl 84 02 02 37 -17 51.1 1.299 96.8 -35.0 M3 K 10.19 +1.51 +1.15 +1.02 118.0 08.5 118.0 08.5 10.55 b -22 -36 +46 BD-18 359 G272-148 149 L 727-32 Gl 84.1A 02 03 07 -28 18.8 0.548 40.2 M0.5 K 10.92 +1.40 +1.15 +0.73 051.9 13.9 047. 07. r 9.28 d CD-28 657 G274-145 1337 L 583-53 Gl 84.1B 02 03 08 -28 17.9 0.548 40.2 M3.5 K 12.80 +1.50 +1.12 +1.15 051.9 13.9 047. 07. r 11.16 d G274-146 1338 LP 885-12 L 583-52 sep 58" 13d NN 3134 02 03 23 +64 03.1 0.284 125. m 14.31 +1.28 048. 08. r 12.72 d G244-049 NN 3135 02 03 38 -30 25.0 0.537 282.2 M3.5 K 12.15 +1.08 065. 13. r 11.21 d G274-149 1339 LFT 180 LTT 1101 Gl 84.2A 02 03 48 +44 57.2 0.510 147.9 +62.0 dM0 W 10.28 +1.49 +1.24 055.3 06.7 055.3 06.7 8.99 c -61 +12 -44 G134-001 1343 Gl 84.2B s 02 03 48 +44 57.2 0.510 147.9 14.2 * 055.3 06.7 055.3 06.7 12.9 * c G134-001 sep 4.4" 307d (1959) but no comp. in NLTT etc. ?? Gl 84.3 02 04 21 +23 13.6 0.239 126.8 -14.4 SB K2 IIIab 2.00 +1.15 +1.13 046.6 07.6 046.6 07.6 0.34 d -1 -28 +3 12929 BD+22 306 ALF Ari Wo 9073 A s 02 05 02 -00 51.0 0.421 215.5 -40.2 G2 V 6.90 +0.61 +0.16 +0.21 040.4 08.1 032. 04. r 4.43 c +71 -22 +1 13043 BD-01 293 LTT 1107 Wo 9073 B s 02 05 00 -00 49.8 0.434 215.0 -39.4 K4 K 10.52 +1.24 +1.23 +0.52 040.4 08.1 032. 04. r 8.05 c +72 -23 -1 G159-035 LTT 1106 NN 3136 02 05 38 +49 13.0 0.384 135. M5 : s 12.47 +1.54 +1.17 070. 14. r 11.70 d G173-039 NN 3137 02 05 55 +88 10.0 0.433 348. m 12.89 +1.11 049. 10. r 11.34 d G265-015 LP 1-52 Gl 85 02 05 56 -66 48.7 1.798 077.7 -33. m 11.52 +1.53 +1.08 +0.88 064.6 20.5 049. 09. r 9.97 d -153 -72 +53 150 L 89-027 NN 3138 02 06 46 -16 34.9 0.556 082.3 K7 K 10.95 +0.74 040.3 09.4 040. 06. r 8.96 d BD-17 400 1346 LTT 1117 Gl 85.1 s 02 07 07 +35 12.0 0.567 213.0 M3 K 13.74 +1.48 +1.08 044.9 10.2 044.9 10.2 12.00 d G074-004 1348 Ross 17 NN 3139 02 07 10 -14 35.4 0.629 123.3 M3 K 11.82 +1.54 +1.02 063. 15. r 10.8 e 1347 LFT 185 LTT 1122 L 728-1 LP 709-40 NN 3140 02 07 33 +11 18.0 0.086 193. dM4 R 12.72 090. 30. p 12.5 e Rob 115 GJ 1042 02 08 13 +39 41.6 1.144 115.7 +29. DZ7 14.52 +0.33 -0.47 059.2 10.4 059.2 10.4 13.38 d -45 -81 -5 G074-007 151 W168 Gl 86 02 08 25 -51 04.1 2.264 72.9 +53.1 K0 V 6.12 +0.82 +0.44 +0.32 089.4 09.0 089.4 09.0 5.88 c -103 -77 -25 13445 CD-51 532 13 LTT 1130 Gl 87 02 09 51 +03 22.0 2.598 223.5 -2.7 dM2.5 W 10.06 +1.44 +1.08 +0.87 086.7 07.4 086.7 07.4 9.75 b +117 -13 -80 BD+02 348 G073-035 14 V095 GJ 1043 02 10 00 +20 58.6 0.168 88.6 +6.0 F5 V 5.27 +0.43 -0.05 043. 05. r 3.44 c -17 -9 +2 13555 BD+20 348 BS 646 ETA Ari NN 3141 02 10 02 -63 28.0 0.778 242.9 m 12.25 +1.06 056. 11. r 10.99 d 1351 LTT 1137 LFT 188 L 125-51 Gl 87.1A s 02 10 14 -02 37.6 0.373 99.9 -6.0 SB F8 V 5.67 +0.56 +0.07 +0.19 039.7 10.7 034. 04. r 3.33 c -28 -41 +17 13612 BD-03 336 ADS 1703 Gl 87.1B s 02 10 13 -02 37.8 0.379 98.7 -5.6 G5 V 7.74 +0.68 +0.22 +0.22 039.7 10.7 034. 04. r 5.40 c -30 -40 +17 BD-03 335 sep 16.2" 232d (1958) NN 3142 02 10 19 -00 13.8 0.546 89.2 m 13.5 * +1.24 060. 11. r 12.4 * d G159-046 1358 Gl 88 02 10 27 -17 55.4 0.519 66.9 +34.9 M0 K 11.09 +1.47 +1.2 : +0.73 044.9 16.3 040. 08. r 9.10 d -67 -20 -11 1357 LP 769-90 L 728-16 AC-18:3546 Gl 89 02 10 42 -30 57.5 0.019 55.8 +10. VAR A2 Vn 5.28 -0.02 -0.06 -0.00C 063.0 15.3 063.0 15.3 4.3 e -3 -3 -9 13709 CD-31 882 MU For GJ 1044 02 10 50 -21 25.6 0.332 80. K7 V U 9.88 +1.36 +1.26 +0.58 047. 09. r 8.24 d BD-21 397 U 28 LTT 1141 Gl 90 q 02 11 35 +67 26.6 0.597 119.3 -12.1 K2 V 7.09 +0.90 +0.67 033.6 17.6 070. 11. r 6.32 d -23 -34 -9 13579 BD+67 191 G244-056 1371 Gl 91 02 11 40 -32 16.0 0.957 126.4 +45.5 M2.5 K 10.32 +1.50 +1.11 +0.94 108.5 15.3 108.5 15.3 10.50 d -15 -51 -31 CD-32 828 1361 GJ 1045 02 12 14 +17 11.5 0.594 143.3 m+ 14.44 +1.62 +1.08 +1.29 047.4 03.8 047.4 03.8 12.82 b G035-035 1366 NN 3143 02 12 35 +33 44.1 0.424 156.5 m 13.58 +1.24 058. 11. r 12.40 d G074-011 6 LTT 17342 NN 3144 02 13 12 +39 37.6 0.196 239. DA6 14.54 +0.23 -0.61 045. 04. w 12.81 b W GD 25 NN 3145 02 13 22 -12 54.5 0.544 67.1 M3 K 13.00 +1.50 +1.12 044. 11. r 11.2 e 1373 LTT 1159 LFT 197 L 800-18 LP 709-62 Gl 91.2A 02 13 25 -18 28.2 0.193 199.4 +5.3 K3 V 8.42 +1.02 J+0.80 J+0.40 J 044. 06. r 6.64 c +15 -11 -11 14001 BD-18 394 U031 ADS 1733 V(AB) = 7.95 d(m) = 0.64 Gl 91.2B 02 13 25 -18 28.2 0.193 199.4 K K 9.1 * 044. 06. r 7.3 * d a = 2.01" 173 yr Gl 91.3 02 13 46 +42 44.6 1.009 125.2 DC9 16.20 +0.72 -0.01 050.9 04.6 050.9 04.6 14.73 b G134-022 153 W016 NN 3146 02 13 47 +13 22.1 0.660 128.2 m 15.79 +1.98 118.2 06.8 118.2 06.8 16.15 b 1375 USNO 694 LP 469-206 Gl 92 02 14 00 +33 59.8 1.179 101.2 -6.6 SB G0 Ve 4.87 +0.61 +0.02 +0.24 098.1 05.0 098.1 05.0 4.83 b -33 -46 +11 13974 BD+33 395 154 BS 660 DEL Tri SBO (A&A 195, 129) NN 3147 02 14 08 +35 12.9 0.595 116.4 m+ 15.99 096.6 01.1 096.6 01.1 15.91 a 1378 LP 245-10 NN 3148 A 02 14 27 -31 13.4 0.711 68.9 M4 K 12.0 * +1.16 088. 17. r 11.7 * d CD-31 909 1377 LFT 200 LTT 1165 L 512-14 NN 3149 B 02 14 21 -31 12.2 0.711 68.9 M4 K 13. : +1.26 088. 17. r 13. : e 1376 LFT 199 LTT 1164 L 512-15 LP 885-38 sep 105" 312d Gl 92.1 02 14 52 +56 20.0 0.401 122.2 +3.2 K1 V 8.27 +0.92 +0.70 046.7 10.3 041. 06. r 6.33 d -34 -30 -11 14039 BD+55 570 G220-007 Gl 92.2 02 15 00 +44 02.4 0.535 104.8 M3 K 13.49 +1.53 +1.21 044.5 25.6 045. 11. r 11.8 e G134-024 1383 L 1592-001 Gl 93 s 02 15 50 -54 13.5 0.626 052.0 m 11.43 +1.41 +1.00 +0.76 073.2 13.6 073.2 13.6 10.75 d CD-54 487 1379 Gl 94 02 16 00 +35 07.7 0.792 121.5 M3.5 K 12.55 +1.47 +1.08 054.8 08.5 054.8 08.5 11.24 d G074-014 1388 Ross 19 NN 3150 02 16 11 +23 39.1 0.289 108. m 14.17 +1.26 047. 08. r 12.53 d G035-040 LTT 10787 Gl 95 02 16 44 -26 10.9 0.500 333.9 +7. G5 V 6.34 +0.73 +0.18 +0.26 080.5 09.4 080.5 09.4 5.87 c -11 +27 -10 14412 CD-26 828 1387 GJ 1046 02 16 59 -37 00.9 1.497 068.5 +47. M3 K 11.62 +1.50 +1.17 +1.01 066. 16. r 10.7 e -103 -53 -16 154a NN 3151 A 02 17 21 +37 33.8 0.350 101. m 12.68 +1.05 J 040. 08. r 10.69 d G074-015 LTT 17347 V(AB) = 12.65 d(m) = 4. NN 3152 B 02 17 21 +37 33.8 0.350 101. k 16.7 * 040. 08. r 14.7 * d LP 245-18 sep 2" 90d d(R) = 5, d(pg) = 4.3 (NLTT) GJ 1047 A s 02 17 59 +36 39.8 0.919 128.3 m 14.05 +1.68 J +1.13 J 046.3 03.6 046.3 03.6 12.38 b G074-019 1393 V(AB) = 13.30 d(m) = 0.0 GJ 1047 B s 02 17 59 +36 39.8 0.919 128.3 m 14.05 046.3 03.6 046.3 03.6 12.38 b G074-019 sep(AB) 1" GJ 1047 C s 02 17 57 +36 39.5 0.919 128.3 m 14.26 +1.70 +1.50 +1.16 046.3 03.6 046.3 03.6 12.59 b G074-018 1392 sep 32" 233d NN 3153 02 18 10 +02 45.0 0.288 153. m 14.78 +1.69 041. 17. r 12.8 f G073-045 LTT 17354 NN 3154 02 18 39 -39 15.7 0.215 98.8 K3/4 V 8.74 +1.04 +0.84 +0.38 041. 05. r 6.80 c 14629 CD-39 684 CP-39:190 LTT 1190 Gl 96 02 18 57 +47 39.1 0.226 77.2 -37.3 VAR dM1.5e W 9.41 +1.49 +1.18 +0.77 086.8 02.8 086.8 02.8 9.10 a +19 -31 +15 BD+47 612 G173-053 V096 Wo 9079 s 02 19 11 -31 09.8 0.561 80.2 +54.0 K3 V 8.81 +0.93 +0.66 +0.32 042.3 07.8 032. 05. r 6.34 d -78 -57 -23 14680 CD-31 943 1391 U034 LTT 1194 LFT 211 NN 3155 02 19 14 -07 06.5 0.311 77.7 K0 8.98 +1.08 +0.96 040. 07. r 6.99 d BD- 7 410 G075-005 LTT 1192 Gl 97 02 20 15 -24 02.6 0.206 106.5 +18.4 G1 V 5.20 +0.60 +0.12 +0.24 083.3 25.7 083. 13. r 4.80 d -11 -13 -14 14802 CD-24 1038 KAP For Gl 97.1 02 20 51 -68 53.2 0.045 275.7 +6. VAR A3 Vn 4.08 +0.03 +0.05 +0.02C 048.1 17.0 048.1 17.0 2.5 f +4 -1 -6 15008 CP-69 113 DEL Hyi NN 3156 02 21 54 +25 45.1 0.191 228. m 11.62 +0.83 039. 07. r 9.58 d LTT 10808 LP 353-74 NN 3157 02 22 33 +37 19.1 0.276 103. m 14.05 +1.27 052. 09. r 12.63 d G074-025 LTT 17364 Wo 9082 s 02 23 23 +05 33.2 0.391 70.4 +10.0 G9 K 7.95 +0.81 +0.32 044.0 20.5 036. 06. r 5.73 d -46 -17 +19 15096 BD+05 336 G073-057 LTT 10810 Gl 98 A 02 25 09 +04 12.3 0.255 34.2 +10.4 K7 V 9.36 +1.39 J+1.11 J+0.67 J 060.9 03.8 060.9 03.8 8.28 b -21 +7 +4 15285 BD+03 339 G073-060 V224 ADS 1865 V(AB) = 8.69 d(m) = 0.18 Gl 98 B 02 25 09 +04 12.3 0.255 34.2 K7 V 9.5 * 060.9 03.8 060.9 03.8 8.4 * b a = 0.545" P = 25.32 yr NN 3158 02 25 30 +02 58.0 0.845 180.5 m 17.46 +2.06: 045.1 07.9 045.1 07.9 15.73 d 1407 LP 590-137 NN 3159 02 25 42 +01 13.2 0.296 112. m 13.05 +1.09 043. 09. r 11.22 d G075-016 LTT 17373 Gl 99 A p 02 25 46 +32 02.1 0.421 72. -9.7 dM0 pJ M 10.20 +1.36 J+1.23 J+0.64 J 032.2 05.6 032.2 05.6 7.74 d -34 -33 +41 BD+31 434 G074-027 V393 V(AB) = 9.59 d(m) = 0.3 Gl 99 B p 02 25 46 +32 02.1 0.421 72. 10.5 * 032.2 05.6 032.2 05.6 8.0 * d sep 0.26" 105d - 0.15" 115d (1959-60) Gl 99.1 q 02 25 52 +29 42.5 0.093 318.8 +41.0 G0 V 5.88 +0.58 +0.01 +0.21 031.7 04.3 031.7 04.3 3.39 c -26 +32 -14 15335 BD+29 423 NN 3160 02 26 12 +11 52.0 0.067 42. M1 s 12.01 +1.57 +1.17 +1.01 056. 11. r 10.75 d Rob 140 Gl 100 A p 02 26 41 -20 12.3 0.689 70.6 +23. K4 V 8.86 +1.18 J+1.03 J+0.48 038.9 19.0 049. 06. r 7.31 c -65 -28 +5 15468 BD-20 465 1409 U036 V(AB) = 8.76 d(m) = 2.5 Gl 100 B p 02 26 41 -20 12.3 0.689 70.6 11.4 * 038.9 19.0 049. 06. r 9.9 * c sep(AB) 0.6" 312d (1951) Gl 100 C p 02 26 12 -20 15.9 0.668 065.7 M3 K 12.85 +1.61 +1.22 +1.06 038.9 19.0 049. 06. r 11.30 c 1408 LTT 1226 Gl 100.1 02 27 39 +05 02.6 0.098 101.2 +30. DA3 12.79 -0.04 -0.83 045. 05. w 11.06 c +3 -11 +14 W019 AC+05:19-98 Feige 22 Gl 101 02 27 44 +57 09.5 1.042 088.5 M3.5 K 13.21 +1.52 +1.18 060.0 05.1 060.0 05.1 12.10 b G174-001 155 Ross 21 Wo 9083 02 28 55 +02 02.8 0.023 89.5 +26.1 K3 III 5.25 +1.27 +1.41 040.0 17.0 040.0 17.0 3.3 f -17 +2 -20 15694 BD+01 438 Gl 101.1 x 02 29 18 -46 54.4 0.29 177. +34.5 m 11.27 +1.03 +0.9 : +0.54C 064.0 10.2 064.0 10.2 10.30 d +14 -29 -24 CD-47 765 NN 3161 02 30 10 +14 48.9 0.050 324.2 +8.8 SB F8 V 6.02 +0.54 +0.04 044. 07. r 4.24 d -5 +8 -4 15814 BD+14 419 NN 3162 02 30 15 -14 24.5 0.693 174.6 DC 15.76 +0.75 -0.01 064.6 06.6 064.6 06.6 14.81 c 1415 W471 LP 710-047 USNO 695 NN 3163 02 30 20 +07 40.1 0.031 13.9 G5 8.89 +1.15 +0.75 040. 08. r 6.90 d 15833 BD+ 7 398 Gl 102 02 30 44 +24 42.9 0.687 176.8 M4 K 12.96 +1.70 +1.20 +1.31 102.4 07.7 102.4 07.7 13.01 b G036-024 1417 L 1305-010 NN 3164 02 30 48 +41 33.6 0.303 74. m 13.62 +1.16 041. 08. r 11.68 d G074-029 LTT 17383 NN 3165 02 31 01 +14 47.1 0.431 85. M3.5 K 13.76 +1.63 +1.16 039. 10. r 11.7 e G004-028 LTT 10846 Gl 103 02 32 28 -44 00.6 0.297 168.5 +41.9 SB K7 Ve 8.85v +1.39 +1.02 +0.77 087.2 10.7 087.2 10.7 8.55v c +6 -30 -33 16157 CD-44 775 U039 CC Eri NN 3166 02 32 30 +23 21. -12. M3 e 13.71 +1.58 +1.00 +1.22t 048. 10. r 12.12 d +9 -5 +7 X-ray src: Fleming et al 1988 NN 3167 02 32 37 -72 54.5 0.238 37.8 K4 V 8.90 +1.04 +0.99 +0.41 041. 06. r 6.96 d 16348 CP-73 178 CD-73:110 LTT 1263 Wo 9085 02 32 49 -03 46.3 0.469 200.0 -50.7 G5 IV 6.82 +0.67 +0.21 042.4 08.2 042.4 08.2 4.96 d +66 -28 +15 16141 BD-04 426 LTT 1267 NN 3168 02 32 55 +55 15.8 0.355 222. m 13.22 +1.11 042. 09. r 11.34 d G173-061 Gl 104 02 33 03 +20 00.3 0.272 121. -22.3 dM2 M 10.66 +1.51 +1.17 +0.95 069.0 06.3 069.0 06.3 9.85 b +8 -25 +13 BD+19 381n G004-030 V395 AC+19:1154-111 Gl 105 A 02 33 20 +06 39.0 2.322 51.0 +26.0 K3 V 5.82 +0.98 +0.80 +0.36 129.4 04.3 129.4 04.3 6.38 a -81 +0 +36 16160 BD+06 398 G073-070 15 LTT 10858 USNOP Gl 105 B 02 33 31 +06 38.0 2.322 051.4 +25.7 dM4.5 W 11.66 +1.60 +1.11 +1.25 129.4 04.3 129.4 04.3 12.22 a -81 +0 +36 G073-071 16 V396 LTT 10859 USNOP GJ 1048 02 33 45 -23 44.3 0.082 80.9 K2 V U 8.43 +1.08 +0.96 +0.40 050. 08. r 6.92 d 16270 CD-24 1154 U 40 NN 3169 A 02 33 49 +31 51.4 0.330 260. M3 K 13.63 +1.22 J 041. 07. r 11.69 d G074-034 LTT 10854 LE 7A LP 298-7 V(AB) = 13.02 d(m) = 0.3 NN 3170 B 02 33 49 +31 51.4 0.330 260. M3.5 K 13.9 * 041. 07. r 12.0 * d LTT 10855 LE 7B LP 298-8 sep 3" 25d d(R) = 0.2, d(pg) = 0.4 Wo 9086 x 02 34 06 -47 52.9 0.21 119. G0 11.99 +0.55 +0.00 +0.3 C 042.6 13.6 042.6 13.6 10.1 e LTT 1273 CFS 676 Wo 9087 q 02 34 09 -03 22.4 0.335 81.6 +9. K3 K 8.10 +0.95 +0.73 038.0 17.5 048. 08. r 6.51 d -29 -17 +7 16287 BD-03 410 G075-028 LTT 1274 NN 3171 02 34 24 +06 41. M5 e 16.00 +1.85C 048. 09. r 14.41 d IE 02344+0641 R-I(KC) = 1.85, V-R(KC) = 1.49 NN 3172 s 02 34 54 +00 08.5 0.543 107.0 m 15.16 +1.67 +1.23 040.6 04.3 040.6 04.3 13.20 c G075-030 1426 Gl 105.1 02 34 54 -34 47.5 0.259 183.5 +10.3 G5 IV 5.78 +0.65 +0.20 +0.21 055.2 08.5 055.2 08.5 4.49 d +15 -17 -8 16417 CD-35 903 LAM(2) For Wo 9089 s 02 35 31 +30 36.4 0.625 231.4 -103. G1 V 7.34 +0.60 +0.00 044.0 12.1 031. 03. s 4.80 c +133 -34 -31 16397 BD+30 421 G036-028 1428 LFT 219 NN 3173 02 35 52 +06 24.8 DA8 15.09 +0.44 -0.51 059. 10. w 13.94 d W PG WD0235+064 NN 3174 02 36 37 +07 15.5 0.446 105.1 m 14.27 +1.26 045. 08. r 12.54 d G076-019 6 LTT 17400 Gl 105.3 x 02 36 56 -26 31.8 0.277 139.6 +16.1 G2 V-VI 8.76 +0.60 +0.01 +0.34C 047.5 11.9 047.5 11.9 7.1 e -2 -31 -9 16623 CD-26 957 Gl 105.4A 02 37 09 -12 05.0 0.276 148.3 +15.7 SB F5 V 5.50 +0.44 J-0.01 J+0.25CJ 068.6 07.2 068.6 07.2 4.68 c -4 -20 -14 16620 BD-12 501 BS 781 EPS Cet V(AB) = 4.82 d(m) = 0.15 , SBO (A&A 195,129) Gl 105.4B 02 37 09 -12 05.0 0.276 148.3 +16.8 F5 V 5.6 * 068.6 07.2 068.6 07.2 4.8 * c -5 -20 -15 sep 0.1" GJ 1049 02 37 36 -58 24.1 0.038 333.0 M0 Ve U 9.65 +1.39 +1.10 +0.76 077. 16. r 9.08 d CD-58 538 U 43 GJ 1050 02 37 44 -34 19.5 1.721 161.7 -71. m 11.75 +1.52 +1.09 +1.04 066. 13. r 10.85 d +79 -80 +88 157 NN 3175 02 37 46 -09 40.0 0.160 240.8 -4.0 F8 V 5.78 +0.52 +0.00 045. 06. r 4.05 c +16 +4 -5 16673 BD-10 525 Gl 105.5 02 38 07 +00 58.9 0.370 49.7 +79. dM0 p M 9.52 +1.20 +1.09 +0.50 041.6 06.3 043. 05. r 7.69 c -81 +7 -37 BD+00 444 G075-034 V397 Wo 9094 s 02 38 28 -30 21.0 0.574 81.3 +33.2 G0 V 8.02 +0.56 -0.02 +0.22 042.0 09.3 021. 03. s 4.63 d -104 -81 +22 16784 CD-30 990 1432 LTT 1310 LFT 222 Gl 105.6 02 39 05 +39 59.0 0.184 186.0 -22.8 SB F9 V 4.92 +0.59 +0.14 +0.19t 042.7 07.4 042.7 07.4 3.07 d +19 -21 -11 16739 BD+39 610 Gl 106 02 40 30 +19 13.1 0.432 90.7 +29.2 SB dK4 W 8.28 +1.07 +0.95 +0.40 054.7 10.2 054. 08. r 6.94 d -45 -16 -2 16909 BD+18 339 G004-035 Gl 106.1A 02 40 42 +03 01.6 0.207 224.5 -5.1 A3 V 3.56 +0.09 J+0.07 J 046.9 04.3 046.9 04.3 1.92 c +19 -2 -10 16970 BD+02 422 BS 804 ADS 2080 GAM Cet V(AB) = 3.47 d(m) = 2.73 Gl 106.1B 02 40 42 +03 01.6 0.207 224.5 -12.5 dF3 W 6.3 * 046.9 04.3 046.9 04.3 4.7 * c +24 -3 -4 sep 2.8" Gl 106.1C 02 39 54 +03 09.9 0.215 220. K5 K 10.16 +1.36 +1.28 +0.57 042.0 04.2 042.0 04.2 8.28 c BD+02 418 V399 Gl 107 A 02 40 46 +49 01.1 0.346 104.0 +24.4 F7 V 4.13 +0.49 +0.00 +0.18 079.3 04.1 079.3 04.1 3.63 b -32 +0 +0 16895 BD+48 746 THE Per Gl 107 B 02 40 46 +49 01.1 0.346 104.0 +25.1 M1 V 10.06 +1.48 +0.89 079.3 04.1 079.3 04.1 9.56 b -33 +0 +0 Gl 108 02 40 51 -51 00.9 0.405 56.4 +15.5 G3 IV 5.41 +0.56 +0.09 +0.30C 068.3 09.7 068.3 09.7 4.58 d -27 -15 -8 17051 CD-51 641 IOT Hor NN 3176 02 40 55 -39 08.8 0.558 103.9 M3.5 K 13.1 * +1.10 045. 09. r 11.4 * d 1434 LTT 1323 L 442-72 Gl 109 02 41 18 +25 19.0 0.923 113.8 +29.9 dM3.5 W 10.57 +1.56 +1.21 +1.08 125.6 02.7 125.6 02.7 11.06 a -40 -18 -13 G036-031 1439 V400 AC+25:7918 GJ 1051 02 41 22 -09 02.4 0.924 140.5 +6. M2.5 K 11.92 +1.46 +1.07 +0.85 057.3 13.4 057.3 13.4 10.7 e +0 -77 -4 1438 Wolf 1132 NN 3177 02 42 11 -36 31.1 0.034 102.9 G5 V 7.12 053. 05. o 5.74 c 17169 CD-36 1033 Wo 9099 02 42 14 +09 54.3 0.284 96.2 +30.4 SB F0 IV 4.27 +0.31 +0.08 +0.05 048.3 13.7 048.3 13.7 2.7 e -37 -14 -11 17094 BD+09 359 LTT 10901 NN 3178 A 02 42 20 +44 44.4 0.422 107. K6 s 10.85 +1.40 +1.27 +0.77 047. 08. r 9.21 d G078-004 LTT 17413 Pulk 22-59 NN 3179 B 02 42 22 +44 44.6 0.435 106.7 m 15. * 047. 08. r 13. * e G078-003 LTT 17412 LP 197-48 sep 18" 65d Gl 111 02 42 46 -18 47.0 0.334 83.5 +25.6 SB F6 V 4.46 +0.48 -0.01 +0.17t 071.0 17.7 073. 09. r 3.78 c -26 -17 -13 17206 BD-19 518 TAU(1) Eri Gl 112 02 43 20 +25 26.5 0.286 121.1 +14.5 K1 IV 7.88 +0.84 +0.50 +0.29 052.6 11.0 052.6 11.0 6.48 d -22 -17 -8 17190 BD+25 449 G037-004 Gl 112.1 02 43 34 +11 34.1 0.332 126.7 +11.3 dK8 M 8.59 +1.28 +1.24 +0.52 056.1 13.8 073. 09. r 7.91 c -14 -18 -8 17230 BD+11 383 G004-041 V402 NN 3180 x 02 43 39 -05 10.3 2.524 138.1 m 15.86: +1.50: 061.0 08.2 061.0 08.2 14.79: c 17 NN 3181 02 43 51 +16 13.1 0.981 235.7 -34. M6 16.86 +2.02 066.7 06.5 066.7 06.5 15.98 c +72 +1 -29 1443 LP 411-6 GJ 1052 02 43 58 -02 39.6 0.513 154.8 DA7 15.53 +0.36 -0.51 047.7 05.7 047.7 05.7 13.92 c G075-039 1442 W565 NN 3182 02 45 03 +54 11.1 0.613 224.1 DC9 15.32 +0.93 +0.35 097.0 03.6 097.0 03.6 15.25 a G174-014 1446 W473 Gl 113 AB 02 45 12 +26 51.7 0.304 115.7 +11.1 K1 Ve 7.61 +0.83 +0.43 055.6 15.4 046. 07. r 5.92 d -24 -23 -4 17382 BD+26 465 G036-033 Gl 113 C 02 45 12 +26 52.0 0.296 112. m 16.5 P 055.6 15.4 046. 07. r 14.8 P d LP 354-414 sep(AB-C) 20" 20d (NLTT) Gl 113.1 02 45 42 +30 54.6 0.273 128.5 -2.8 SB G9 e K 6.76 +0.96 +0.63 049.9 15.3 078. 12. r 6.22 d -5 -16 -1 17433 BD+30 448 VY Ari SBO (A&A 195,129) Gl 114 02 47 49 +15 30.6 0.525 137.6 -25.0 dK6 W 8.90 +1.20 +1.10 +0.43 057.3 23.9 049. 08. r 7.35 d +9 -56 +6 17660 BD+15 395 G004-043 1453 Gl 114.1A 02 48 31 -53 21.3 0.531 348.4 k-m 10.72 +1.51 +1.20 +0.93 044.4 09.8 044.4 09.8 8.96 d CD-53 570 1452 comp B is optical NN 3183 02 48 51 +29 17.1 0.180 204. m 13.96 +1.30 062. 10. r 12.92 d LP 298-42 Gl 115 x 02 48 52 -44 17.0 0.270 187.1 +30.5 F8 V 8.17 +0.55 -0.01: +0.34C 061.9 13.6 061.9 13.6 7.13 d +14 -25 -23 17865 CD-44 863 mod = 3.63 uvby Gl 116 02 48 58 +34 11.9 1.342 136.1 -45.7 dM0 W 9.55 +1.34 +1.02 066.7 07.8 066.7 07.8 8.67 c +0 -105 -9 BD+33 529 G037-008 159 LTT 10932 Wolf 1323 NN 3184 02 49 11 +06 01.5 0.487 103.3 dM3 R 13.19 +1.58 044. 20. r 11.4 f G075-044 5061 LTT 17424 NN 3185 p 02 49 23 +60 39.0 0.172 120.8 -69.6 K5 V O 9.16 +1.07 +1.03 +0.42 030.3 12.2 039. 06. r 7.12 d +37 -63 -3 BD+65 585 V405 AG+60:305 NN 3186 02 49 28 +26 46.4 0.215 178. dM0 M 11.11 +1.49 +0.84 052. 09. r 9.69 d G036-038 V406 LTT 10935 L 1378-25 LP 354-423 Gl 117 02 50 07 -12 58.3 0.435 115.2 +18.8 VAR K2 V 6.03 +0.87 +0.55 +0.31 120.4 08.8 120.4 08.8 6.43 b -14 -18 -11 17925 BD-13 544 NN 3187 s 02 50 14 -33 39.3 0.434 92.4 +60.9 K1 V 8.09 +0.84 +1.93C +0.30 039.3 08.2 038. 05. r 5.99 c -47 -60 -30 17970 CD-33 992 LTT 1376 Gl 118 02 51 14 -63 53.5 1.149 058.4 +94. m 11.38 +1.56 +1.20 +1.05 081.0 17.0 081.0 17.0 10.92 d -48 -85 -62 160 L 127-097 NN 3188 02 51 58 +61 19.1 0.148 75.0 +29.2 F4 V 5.59 +0.45 +0.10 042. 08. r 3.71 d -30 +10 +12 17948 BD+60 591 BS 860 Gl 118.1A 02 52 00 -36 06.3 0.562 106.8 +5.5 SB K3 V 8.23 +0.93 +0.65 +0.36 047.9 08.2 043. 06. r 6.40 d -23 -53 +23 18168 CD-36 1091 1466 Gl 118.1B 02 52 00 -36 06.9 0.532 106.7 M3 : K 13.10 +1.52 +1.21 +1.06 047.9 08.2 043. 06. r 11.27 d 1467 L 442-013 Gl 118.2A 02 52 41 +26 40.4 0.324 124.6 +31.8 dK2 W 7.60 +0.93 +0.71 +0.30 039.6 06.5 053. 06. r 6.22 c -37 -14 -17 18143 BD+26 484 G036-044 Gl 118.2B 02 52 41 +26 40.4 0.324 124.6 +27. dM0 W 9.80 +1.40 +1.50 039.6 06.5 052. 06. r 8.38 c -33 -17 -14 Gl 118.2C 02 52 38 +26 40.3 0.322 125. m 13.86 +1.58 +1.17 +1.25 039.6 06.5 052. 06. r 12.44 c G036-043 L 1378-026 Gl 119 A 02 52 50 +55 14.5 0.833 123.9 +76.6 M1 K 10.48 +1.39 +1.19 +0.78 044.8 03.9 044.8 03.9 8.74 b -114 -18 -15 G174-019 1475 V410 AC+55:19224 Ross 364 LFT 240 Gl 119 B 02 52 50 +55 14.8 0.833 123.9 M3 K 11.65 +1.42 +1.10 +1.02 044.8 03.9 044.8 03.9 9.91 b G174-020 1476 AC+55:19225 Ross 365 LFT 241 sep 17" 22d (LHS) Wo 9106 s 02 53 27 +13 42.8 0.113 235.5 +3.1 K0 9.05 +0.81 +0.46 041.1 18.8 023. 03. r 5.86 c +13 +4 -19 18257 BD+13 476 Gl 120 02 54 43 +10 35.8 1.821 102.9 +49.0 dM4 W 13.03 +1.56 +1.11 +1.10 046.8 07.5 046.8 07.5 11.38 d -126 -141 +27 G005-007 163 AC+10:22-181 Ross 791 LFT 242 Gl 120.1A 02 55 02 -25 10.1 0.025 126.4 +50.6 K1/2 V 8.03 +0.87 J+0.52 J 044. 04. r 6.25 b -20 -17 -44 18455 CD-25 1169 ADS 2242 V(AB) = 7.36 d(m) = 0.17 Gl 120.1B 02 55 02 -25 10.1 0.025 126.4 8.2 * 044. 04. r 6.4 * c a = 1.548" P = 137.0 yr Gl 120.1C 02 55 01 -25 10.5 0.039 145.9 +49.6 SB K2 V 7.83 +0.95 +0.74 044. 04. r 6.05 b -18 -18 -43 18445 CD-25 1168 sep(AB-C) 28.6" 224d (1954) NN 3189 02 55 46 -13 05.5 0.651 28.8 +107. M2.5 K 12.67 +1.73 +1.04 045. 13. r 10.9 e -113 +9 -58 1481 LTT 1415 L 802-6 LP 711-32 GJ 2028 02 55 54 -70 34.0 0.682 97.9 +107.0 DA6 14.08 +0.23 -0.59 043. 05. w 12.25 c -20 -95 -2 1474 W LTT 1419 LFT 245 L 54-005 NN 3190 02 56 00 +36 25.0 0.680 115.5 M3.5 K 13.04 +1.52 +1.16 053. 14. r 11.7 e G074-052 1483 Ross 331 NN 3191 02 56 14 +31 34.3 0.228 15. m 13.41 +1.12 040. 08. r 11.42 d LP 298-52 Gl 120.2 q 02 59 28 +26 24.9 0.280 124.5 +9.6 G8 V 6.62 +0.72 036.8 07.4 042. 04. s 4.74 c -20 -26 -5 18803 BD+26 503 Wo 9107 02 59 28 -28 16.9 0.514 147.4 +43.3 G5 IV 5.88 +0.79 +0.33 +0.31 039.5 07.6 039.5 07.6 3.86 d +4 -71 -25 18907 CD-28 987 1489 LTT 1446 LFT 251 NN 3192 A 02 59 32 -16 47.0 0.435 232. M3 s 10.96 +1.69 J +1.16 J 131. 30. r 11.55 d LTT 1445 L 730-18 LP 771-95 V(AB) = 10.54 d(m) = 0.8 NN 3193 B 02 59 32 -16 47.0 0.435 232. M3 s 11.8 * 131. 30. r 12.4 * e LP 771-96 sep 4.5" 121d d(R) = 0.7, d(pg) = 0.8 (NLTT) NN 3194 A q 03 00 03 +61 31.2 0.993 132.8 +3.8 G4 V 6.62 +0.63 +0.15 036.2 07.2 045. 06. r 4.89 c -72 -72 -25 18757 BD+61 513 1492 LTT 10990 LFT 252 NN 3195 B q 03 00 37 +61 33.1 0.996 133.7 M3 K 12.6 * 036.2 07.2 045. 06. r 10.9 * c G246-022 1494 LTT 10995 LFT 253 V Ma sep 266" 65d (NLTT) Gl 121 03 00 11 -23 49.2 0.157 250.8 -9.8 A4 IV 4.08 +0.16 +0.08 +0.10C 061.6 13.3 061.6 13.3 3.03 d +13 +8 +3 18978 CD-24 1387 TAU(3) Eri Gl 121.1 03 00 20 -18 21.6 0.435 66. m 11.80 +1.53 +1.30C 064.1 15.3 064.1 15.3 10.8 e LP 771-72 L 730-041 Gl 121.2 s 03 01 09 -05 51.5 0.436 127.1 -20.6 dG5 W 8.09 +0.67 +0.11 +0.36C 049.1 10.1 049.1 10.1 6.55 d +8 -40 +23 19034 BD-06 594 G075-062 6 NN 3196 A 03 01 17 -13 02.1 0.262 112. k-m 13.37 +1.17 048. 06. r 11.78 c LP 711-43 NN 3197 B 03 01 24 -13 02.9 0.262 112. k-m 13.50 +1.18 048. 06. r 11.91 c LP 711-44 sep 114" 115d NN 3198 03 01 47 -20 33.9 0.685 135.9 M3 12.84 +1.59 +1.19 065. 13. r 11.90 d 1491 LP 771-77 Gl 122 03 03 15 +75 51.8 0.555 157.5 +34. dM0 M 9.82 +1.38 +1.26 +0.63 051.8 07.2 051.8 07.2 8.39 d -57 +4 -20 G245-065 1505 V097 AC+75:1146 NN 3199 ABp 03 03 38 +40 10.1 0.434 249. -51.1 K5 K 9.71 +1.19 J+1.06 J+0.56 J 032.6 15.3 040. 07. r 7.72 d +68 -4 -25 BD+39 0710 G078-016 V006 LTT 11010 ADS 2343 V(AB) = 9.66 d(m) = 3.4 , sep 3" 214d Gl 123 03 03 50 +01 47.2 0.992 156.8 -30.2 M0 V 9.09 +1.38 +1.22 +0.62 063.6 04.0 063.6 04.0 8.11 b +36 -71 +3 19305 BD+01 543 G076-058 1496 V098 NN 3200 03 04 57 -13 57.0 0.261 182.5 +12.3 G5 V 6.97 +0.65 +0.15 +0.21 043.4 17.0 040. 06. r 4.98 d +14 -24 -19 19467 BD-14 604 LTT 1469 NN 3201 x 03 05 03 +42 51.0 0.558 139.8 m 14.7 * +1.5 * 040.7 08.0 040.7 08.0 12.7 * d G078-018 1499 LTT 17467 NN 3202 03 05 04 -04 09.6 0.461 217. dK7 s 10.87 +1.43 +0.72 042. 07. r 8.99 d G077-025 LTT 1471 L 947-30 GJ 1053 03 05 16 +73 35.8 2.104 120.0 sdM6 14.64 +1.79 +1.45 082.9 04.9 082.9 04.9 14.23 b G221-005 18 Gl 124 03 05 27 +49 25.4 1.267 93.6 +49.5 G0 V 4.05 +0.60 +0.12 +0.20 092.4 04.5 092.4 04.5 3.88 b -77 -17 +22 19373 BD+49 857 166 IOT Per Heintz AJ 96 : double? GJ 1054 A 03 05 49 -28 24.4 0.376 250. K7 V 10.24 +1.41 +1.08 +0.76 046. 07. r 8.55 d CD-28 1030 V414 LTT 1479 GJ 1054 B 03 05 47 -28 25.5 0.376 250. m+ 13.09 +1.64 +1.22 +1.07 046. 07. r 11.40 d LTT 1477 NN 3203 03 05 53 -24 57.6 0.333 64. m 9.5 * +0.66 068. 10. r 8.7 * d CD-25 1273 LTT 1480 L 587-3 cmp with LTT 1486 = -25:1278 ? Gl 125 03 06 09 +45 32.9 0.540 232.4 -9.3 dM1 W 10.15 +1.49 +1.21 +0.94 076.7 11.4 076.7 11.4 9.57 d +19 +2 -29 G078-019 1507 V099 AC+45:133-65 GJ 1055 03 06 17 +09 50.5 0.646 153.1 m 14.85 +1.72 +1.30: +1.45 084.2 04.0 084.2 04.0 14.48 b G076-062 1504 NN 3204 03 06 33 +58 15.0 0.272 146. M3 L 11.72 +1.50 +0.92 048. 09. r 10.13 d G246-026 GJ 1056 03 07 13 -60 21.9 0.242 54.1 K5 V U 9.35 +1.22 +1.14 +0.50 047. 08. r 7.71 d 19819 CD-60 637 U 49 BPM 2877 NN 3205 03 07 37 +05 43.6 0.563 191.5 dM4 R 11.88 +0.98 053. 10. r 10.50 d G076-066 1512 NN 3206 p 03 07 48 +61 21.0 0.09 8. dK8 M 10.12 +1.32 +0.64 029.0 08.5 048. 07. r 8.53 d BD+60 637 V412 SpT K5 III OP Gl 126 s 03 09 33 -46 42.7 0.44 25. m 11.52 +1.44 +1.21 +1.03C 074.6 10.2 074.6 10.2 10.88 c CD-46 943 LTT 1509 CFS 873 NN 3207 03 09 38 -38 58.4 0.859 103.1 M3.5 K 11.51 +1.51 +1.22 +0.90 057. 14. r 10.3 e 1513 LTT 1507 L 443-59 LP 994-72 Gl 127 A 03 09 57 -29 11.0 0.727 27.6 -20.0 F7 IV 3.95 +0.51 J+0.05 J+0.20 J 072.7 07.7 072.7 07.7 3.26 c -36 +20 +30 20010 CD-29 1177 1515 ALF For BS 963 ADS 2402 V(AB) = 3.86 d(m) = 2.75 Gl 127 B 03 09 57 -29 11.0 0.727 27.6 G7 V 6.7 * 072.7 07.7 072.7 07.7 6.0 * c a = 4.367" P = 314 yr Gl 127.1A 03 10 04 -68 47.2 0.08 130. DA3 11.40 +0.05 -0.55 084.9 10.2 084.9 10.2 11.04 c BD-69 177 W021 LB 3303 Gl 127.1B 03 10 04 -68 47.2 0.08 130. 14.73 +0.62 084.9 10.2 084.9 10.2 14.37 c W * sep 8" Gl 128 A 03 10 13 -01 22.9 0.202 108.2 +19.2 SB? F8 V 5.06 +0.57 +0.12 +0.30C 053.3 09.9 053.3 09.9 3.69 d -19 -16 -8 19994 BD-01 457 ADS 2406 Gl 128 B 03 10 13 -01 22.9 0.202 108.2 11.5 * 053.3 09.9 053.3 09.9 10.1 * d sep 3.3" 231d (1958) Gl 130 03 10 30 -38 17.2 1.434 059.7 +98. M3 K 11.46 +1.56 +1.22 +0.90 080.3 41.1 060. 14. r 10.4 e -123 -77 -38 CD-38 1058 167 GJ 1057 03 10 39 +04 35.2 1.706 086.4 m 13.80 +1.82 +1.15 +1.48 118.1 03.8 118.1 03.8 14.16 a G077-031 168 Wo 9111 s 03 10 58 +52 10.1 0.517 205.7 -55.0 dM0 10.24 +1.26 041.8 06.8 041.8 06.8 8.35 d +45 -40 -54 BD+51 697 G174-038 1518 LTT 11048 Ross 345 NN 3208 03 11 10 +28 30.2 0.836 158.1 m 16.77 +2.15 067.0 08.7 067.0 08.7 15.90 c 1516 LP 299-36 NN 3209 03 11 14 +48 20.3 0.322 163. M1 L 11.43 +1.49 +1.13 054. 26. r 10.1 f G078-024 LTT 11051 Ross 346 NN 3210 03 11 18 -54 18.0 0.081 163. DZ7 14.75 +0.52 -0.42 091. 12. w 14.55 c W BPM 17113 L 227-140 NN 3211 03 11 47 +00 28.1 0.06 297. 10.9 P 070.1 25.6 070.1 25.6 10.1 P f Wo 9112 03 12 04 +08 48.1 0.565 134.5 -21.5 K1 V 7.83 +0.86 +0.57 +0.31 043.6 05.6 043.6 05.6 6.03 c +9 -63 +12 20165 BD+08 482 G079-018 1520 LFT 264 NN 3212 03 12 12 -09 51.2 M0 s 11.63 +1.55 +1.14 +0.82 040. 07. r 9.64 d Steph 350 Gl 130.1A 03 12 17 +57 59.3 0.591 126.7 +22.0 M1.5 K 10.92 +1.54 J +0.95 J 070.6 03.9 070.6 03.9 10.16 b -42 -17 -4 G174-041 1522 V416 AC+57:22428 Ross 370 LFT 265 V(AB) = 10.31 d(m) = 0.3 Gl 130.1B 03 12 17 +57 59.3 0.591 126.7 +22.1 M2 K 11.2 * 070.6 03.9 070.6 03.9 10.4 * b -42 -17 -4 1523 AC+57:22429 LFT 266 sep 5" 10d (NLTT) Gl 131 03 12 35 -26 38.0 0.269 69.4 +14.9 K7 V 9.15 +1.24 +1.10 +0.49 058.2 10.8 058.2 10.8 7.97 d -23 -14 -1 20280 CD-26 1207 V225 Gl 132 s 03 13 24 -45 50.7 0.21 313. +4.0 G3 V 6.76 +0.58 -0.01 +0.33C 064.9 10.1 064.9 10.1 5.82 d -3 +11 -11 20407 BD-46 968 NN 3213 03 13 48 +45 11.4 0.261 255. m 12.39 +1.13 066. 13. r 11.49 d G078-028 LTT 17492 Gl 133 03 13 56 +79 46.9 0.488 051.7 -10.2 M2 K 11.20 +1.56 +1.18 +0.94 073.8 07.4 073.8 07.4 10.54 c +5 -21 +25 G245-071 5072 AC+79:1584 NN 3214 03 14 36 +60 25.8 0.600 128.4 M3.5 K 13.33 +1.51 +1.11 040. 10. r 11.3 e G246-032 1530 LTT 11079 Ross 371 NN 3215 03 14 45 +25 04.5 0.854 115.1 k 11.85 +1.45 +1.10 +0.89 041. 07. r 9.91 d G037-032 1525 LTT 11081 LP 355-51 L 1307-8 Gl 134 03 14 52 +38 04.7 0.772 141.2 -3.7 dM1.5e W 10.28 +1.48 +1.20 +0.86 064.2 03.7 064.2 03.7 9.32 b -18 -52 -16 275122 BD+37 748 G078-031 1528 V100 NN 3216 03 15 30 +32 28.0 0.210 108. m 11.33 +1.47 +1.37 +0.80 042. 07. r 9.45 d LTT 11085 LP 299-53 Gl 135 03 16 30 -03 01.4 0.272 110.9 +22.5 G1.5 V 7.03 +0.66 +0.09 +0.34C 064.2 18.8 039. 06. r 4.99 d -25 -31 -5 20619 BD-03 534 Gl 136 03 16 41 -62 46.0 1.495 63.2 +12.2 G2 V 5.54 +0.64 +0.08 +0.23 093.6 09.1 093.6 09.1 5.40 c -63 -42 +13 20766 CP-63 217 171 ZET(1) Ret Gl 137 03 16 44 +03 11.3 0.284 70.1 +18.9 SB? G5 Ve 4.82 +0.68 +0.20 +0.23 104.5 04.8 104.5 04.8 4.92 b -22 -4 -4 20630 BD+02 518 KAP Cet Gl 138 03 17 07 -62 41.8 1.483 63.7 +11.5 G1 V 5.24 +0.60 +0.00 +0.23 087.5 08.8 087.5 08.8 4.95 c -66 -44 +15 20807 CP-62 265 172 ZET(2) Ret LTT 1576 Gl 138.1A s 03 17 54 +08 51.3 0.298 103.2 +7.2 SB dG2 W 8.45 +0.68 +0.16 +0.39C 050.7 11.9 022. 03. r 5.16 c -32 -52 +21 20727 BD+08 496 G079-029 Gl 138.1B s 03 17 59 +08 51.4 0.299 103. k-m 15.13 +1.18 050.7 11.9 022. 03. r 11.84 c G079-030 Gl 139 03 17 56 -43 15.6 3.127 76.3 +86.7 SB G5 V 4.26 +0.71 +0.22 +0.27t 159.6 09.6 159.6 09.6 5.28 b -81 -94 -27 20794 CD-43 1028 19 82 Eri LTT 1583 NN 3217 s 03 18 17 +52 09.4 0.392 228.1 K3 K 9.07 +0.99 +0.84 042.1 11.5 033. 05. r 6.66 d 232781 BD+51 722 G174-047 LTT 11103 NN 3218 03 19 19 -06 51.1 0.312 103. M2 s 11.37 +1.50 +0.96 063. 12. r 10.37 d G077-046 LTT 17505 NN 3219 A 03 19 27 +26 58.7 0.208 113. K7 s 11.03 +1.43 +1.34 045. 22. r 9.3 f LP 355-64 NN 3220 B 03 19 48 +26 58.0 0.208 113. a 18. * 045. 22. r 16. * f LP 355-65 sep 278" 98d GJ 1058 03 19 27 +02 46.4 0.803 155.9 m 14.78 +1.76 +1.33 059.4 05.9 059.4 05.9 13.65 c G077-048 1540 GJ 1059 03 19 41 +41 50.3 0.719 143.4 m 15.33 +1.89 +1.48 065.4 03.4 065.4 03.4 14.41 b G095-030 1541 NN 3221 03 20 39 +11 30.7 0.275 241. m 12.19 +1.56 +1.25 +1.09 054.8 10.9 054.8 10.9 10.88 d G005-032 LTT 11117 GJ 2030 A p 03 20 51 -07 58.1 0.216 180.3 +42.2 G2 V 6.19 +0.71 +0.15 +0.27 035.0 08.3 055. 05. s 4.89 b -16 -19 -39 21019 BD-08 643 LTT 1601 GJ 2030 B p 03 20 51 -07 58.1 0.216 180.3 12.3 * 035.0 08.3 055. 05. s 11.0 * c Gl 140 A 03 21 09 +23 36.6 0.227 122. dM0 M 10.64 +1.51 J+1.28 +0.90 J 060. 08. r 9.53 c V419 AC+23:368-59 V(AB) = 10.38 d(m) = 1.4 Gl 140 B 03 21 09 +23 36.6 0.227 122. 12.0 * 060. 08. r 10.9 * c sep 1.6" 357d (1965) Gl 140 C 03 21 16 +23 35.9 0.227 122. m 11.89 +1.50 +1.01 060. 08. r 10.78 c L 1307-14 Gl 140.1A 03 21 43 -50 10.5 0.367 41.5 -12.2 K5 V 8.47 +1.13 J+0.98 J+0.38 051.0 08.2 044. 05. r 6.69 c -38 +3 +17 21209 CP-50 441 CD-50:1015 V(AB) = 8.36 d(m) = 2.4 Gl 140.1B 03 21 42 -50 10.6 0.363 35.1 -12. k 10.32 +1.39 +1.31 +0.60 051.0 08.2 044. 05. r 8.54 c -38 +7 +14 CD-50:1014 sep 14.7" 234d NN 3222 AB 03 21 45 -40 15.2 0.077 99.8 K0 V 6.92 069. 07. o 6.11 c 21175 CD-40 898 CP-40:310 sep 2.1" 221d (1927) d(m) = 4.4 (IDS) Gl 141 03 22 32 -05 31.7 0.802 196.8 -13.6 K5 V 7.86 +1.16 +1.15 +0.41 066.5 08.3 066.5 08.3 6.97 c +47 -28 -20 21197 BD-05 642 G077-049 1546 U053 NN 3223 03 22 38 -01 59.0 0.903 163.8 DZ9 16.12 +0.80 -0.20 062. 06. w 15.08 c G077-050 1547 W566 NN 3224 03 23 04 +05 41.5 0.210 228. m+ 14.70 +1.46 077. 12. r 14.13 d LP 532-81 V-R = 1.71 Weis NN 3225 03 23 53 +19 04.3 0.20 :176. m 14.96 +1.42 060. 09. r 13.85 d G006-007 LTT 11134 Gl 141.2 s 03 24 07 -30 47.7 0.301 47.7 +20.3 G8 V 7.88 +0.71 +0.21 +0.38C 053.2 15.3 032. 06. r 5.41 d -47 -12 +3 21411 CD-31 1384 NN 3226 03 24 55 +09 45.7 K7 s 10.45 +1.39 +1.25 +0.62 040. 06. r 8.46 d + 9 440 Steph 367 = AC+09:26-25 not BD +09:440! Gl 142 03 25 36 -19 58.9 0.616 59.1 +37.9 K7 V 8.39 +1.33 +1.20 +0.57 071.8 12.0 071.8 12.0 7.67 d -51 -20 -7 21531 BD-20 643 1548 V101 NN 3227 03 25 49 +26 19.0 0.237 115. m 13.40 +1.21 055. 10. r 12.10 d LP 356-106 Gl 143 03 26 08 -63 40.1 0.439 124.1 +57.3 K5 V 8.0 : +1.12 +1.08 +0.43 059.8 06.1 059.8 06.1 6.9 : c +9 -64 -17 21749 CP-63 231 U060 NN 3228 A 03 26 19 -15 47.7 0.214 82. m 14.28 +1.29 043. 06. r 12.45 d LP 772-72 NN 3229 B 03 26 19 -15 47.9 0.214 82. m 14.37 +1.23 043. 06. r 12.54 d LDS 3498? LP 772-73 sep 16" 172d GJ 1060 A 03 26 45 -27 29.3 0.839 063.7 DA5 14.0 * 057.6 11.7 057.6 11.7 12.8 * d 1549 W022 LFT 286 LTT 1648 LP888-064 GJ 1060 B 03 26 45 -27 29.4 0.839 063.7 sdM3 13.8 * +1.18 057.6 11.7 057.6 11.7 12.6 * d 1550 Gl 143.1 03 26 57 -11 50.7 0.281 165. M0 V U 9.98 +1.42 +1.3 : +0.66 055.2 23.0 055. 11. r 8.68 d BD-12 662 V421 NN 3230 A s 03 27 37 +19 56.0 0.176 108.9 +24.3 G5 8.32 +0.74 +0.32 +0.25 045.2 07.7 045.2 07.7 6.60 d -28 -11 -6 21663 BD+19 547 Hy 3 NN 3231 B s 03 27 37 +19 56.0 0.176 108.9 +27.1 dK6 10.75 +1.42 +1.23 045.2 07.7 045.2 07.7 9.03 d -30 -10 -7 sep 20.2" 147d (IDS), identical with YPC 727.01 ? NN 3232 s 03 27 37 +19 55.7 0.165 105.8 +20.2 K7 V 10.79 +1.39 +1.24 +0.66 062.4 10.3 062.4 10.3 9.77 d -22 -6 -5 Hy 207 Gl 143.2A 03 28 30 -63 06.8 0.537 45.2 +12.0 F5 IV-V 4.71 +0.39 -0.04 +0.11 056.9 07.0 056.9 07.0 3.49 c -42 -20 -3 22001 CP-63 234 1551 KAP Ret Gl 143.2B 03 28 36 -63 07.3 0.524 044.9 m 10.75 +1.42 +0.80 056.9 07.0 056.9 07.0 9.53 c 1552 L 128-037 Gl 143.3 03 28 59 +14 09.7 0.678 178.4 sdM3 12.27 +1.55 +1.00 +1.00 051.3 03.0 051.3 03.0 10.82 b G005-043 1554 NN 3233 03 29 05 +37 53.6 0.084 234.5 G5 7.28 065. 07. o 6.34 c 21809 BD+37 783 Gl 144 03 30 34 -09 37.6 0.980 271.1 +16.9 K2 V 3.73 +0.88 +0.58 +0.30 305.6 02.6 305.6 02.6 6.16 a -4 +7 -21 22049 BD-09 697 1557 EPS Eri Gl 145 03 31 17 -44 52.3 0.342 296. -36. M3.5 K 11.48 +1.57 +1.2 +1.04 082.4 17.0 082.4 17.0 11.06 d +7 +36 +17 CD-45 1184 NN 3234 q 03 31 53 +28 05.7 0.528 121.9 m 16.67 +1.94 035.3 04.7 035.3 04.7 14.41 c G038-003 1562 NN 3235 03 32 09 -05 00.3 0.520 127.2 k-m 13.1 * +1.22 066. 12. r 12.2 * d G077-064 1561 LTT 1682 L 876-3 LP 653-8 NN 3236 03 32 18 +69 01.1 0.203 123. m 14.17 +1.26 047. 08. r 12.53 d LP 54-19 Gl 146 03 33 26 -48 35.3 0.504 51.3 +19.5 K7 V 8.60 +1.31 +1.18 +0.57 085.3 07.8 085.3 07.8 8.25 b -28 -19 -6 22496 CP-48 376 1563 U061 NN 3237 03 34 04 +03 19.7 0.159 127. dM5 : R 13.86 070. 10. p 13.09 d LP. Rob 233 GJ 1061 03 34 16 -44 40.3 0.831 118.8 -20. M4.5 K 13.03 +1.90 +1.52 +1.60 233. 57. r 14.9 e +4 -2 +26 1565 LFT 295 LTT 1702 Gl 147 03 34 19 +00 14.7 0.535 206.1 +27.9 SB? F8 V 4.28 +0.57 +0.08 +0.20 059.4 08.4 059.4 08.4 3.15 d +6 -18 -47 22484 BD-00 572 1569 NN 3238 03 34 21 -41 09.4 0.522 204.7 M3 K 13.05 +1.09 042. 08. r 11.17 d 1567 LTT 1704 L 372-18 LP 995-48 NN 3239 A 03 34 41 +17 41.7 0.180 98. g-k 12.74 +1.00 043. 06. r 10.91 d LP 413-18 LDS 3512 NN 3240 B 03 34 42 +17 41.5 0.180 98. g-k 13.29 +1.19 043. 06. r 11.46 d LP 413-19 GJ 1062 s 03 35 48 -11 36.7 3.033 152.1 -140. M2 K 13.01 +1.66 +1.38 +0.90 064.8 03.6 064.8 03.6 12.07 b +163 -178 +103 G160-005 20 Ross 578 NN 3241 03 36 30 +24 48.2 0.232 27. dM3.1 12.79 +1.15 059. 12. r 11.64 d LTT 11203 Wolf 1246 NN 3242 p 03 36 35 +25 19.4 0.629 157.1 M3.5 K 12.70 +1.10 001.9 14.8 054. 10. r 11.36 d G006-024 1573 LTT 11204 Wolf 204 cpm to Woolley 9120 ! Wo 9119 A 03 36 39 +33 18.7 0.038 268.5 +9.4 dK5 K 9.07 +1.06 +0.99 +0.40 042. 06. r 7.19 d -6 +6 -5 278874 BD+32 652 V425A ADS 2662A Wo 9119 B 03 36 38 +33 18.8 0.038 268.5 12.87 +1.49 +1.13 042. 05. r 10.99 c V425B ADS 2662B sep 15.2" Wo 9120 03 36 40 +25 19.6 0.629 157.1 M3.5 K 13.1 * +1.13 046.9 16.3 048. 09. r 11.5 * d G006-025 1574 LTT 11207 Wolf 205 LFT 300 cpm to Wolf 204 Gl 147.1 s 03 37 49 -03 22.5 0.724 106.9 +120.3 F9 V 6.68 +0.54 -0.08 +0.23 046.9 08.4 046.9 08.4 5.04 d -107 -77 -49 22879 BD-03 592 G080-015 1577 LTT 1734 NN 3243 03 38 00 -69 07.1 0.608 32.9 m 11.95 +1.04 061. 12. r 10.88 d 1572 LTT 1735 LFT 302 L 91-140 NN 3244 p 03 38 15 -02 29.4 0.432 119.4 +48. K0 K 6.96 +0.96 +0.76 +0.34 025.3 08.2 075. 10. r 6.34 c -39 -31 -24 22918 BD-02 0690 G080-016 LTT 1736 Gl 148 03 38 34 +03 27.3 0.234 192.2 +4.2 dM0 p M 9.59 +1.37 +1.20 +0.61 044.8 05.2 044.8 05.2 7.85 c +10 -15 -18 BD+03 515 G080-017 V427 NN 3245 s 03 39 42 +12 22.9 1.572 151.5 M0.5 K 12.91 +1.54 +1.24 +0.86 045.1 07.8 045.1 07.8 11.18 d G079-059 178 LTT 11223 Wolf 1057 NN 3246 03 40 20 -51 35.1 0.074 293.1 K4 V 9.07 +1.10 +0.93 +0.44 042. 06. r 7.19 d 23295 CD-51 881 U066 CP-51:438 Gl 149 A 03 40 36 -24 37.2 0.379 173.6 +20.7 K4 K 9.20 +1.13 +1.11 +0.44 059.1 11.9 041. 07. r 7.26 d +21 -39 -20 CD-24 1826 U065 Gl 149 B 03 40 38 -24 36.9 0.380 174. m 15.6 P 059.1 11.9 041. 07. r 13.7 P d LP 832-45 sep 36" 65d Gl 150 03 40 51 -09 55.9 0.752 352.3 -5.1 K0 IVe 3.53 +0.92 +0.68 +0.32 103.5 04.6 103.5 04.6 3.60 a -15 +29 +13 23249 BD-10 728 1581 DEL Eri NN 3247 03 40 57 -09 43.6 0.522 54.5 m 14.7 * +1.41 066. 10. r 13.8 * d G160-019 1582 Gl 150.1A 03 41 02 +16 31.1 0.300 160. +36.1 dM0 M 9.96 +1.45 +1.27 +0.70 053.3 08.0 062. 07. r 8.92 c -29 -17 -26 BD+16 502 G006-029 V428 Gl 150.1B 03 40 55 +16 30.8 0.300 160. +13.3 dM0 M 10.81 +1.48 +1.22 +0.86 053.3 08.0 062. 07. r 9.77 c -10 -19 -15 G006-028 AC+17:449-111 Gl 150.2 03 41 16 +45 52.8 0.337 107.6 +20.3 K0 K 7.71 +0.86 +0.54 048.9 13.6 045. 07. r 5.98 d -35 -19 +10 23140 BD+45 805 G078-049 Wo 9124 x 03 41 17 +24 38.6 0.05 165. F8 10.66 +0.66 +0.13 044.5 10.2 044.5 10.2 8.90 d HZ 314 TR108 Wo 9125 x 03 41 17 +24 37.6 0.05 165. G0 10.81 +0.70 +0.19 +0.27 048.5 17.0 048.5 17.0 9.2 f HZ 293 TR 98 Wo 9126 03 41 21 +24 43.1 0.023 241.7 +2. K2 8.85 +1.71 +1.99 051.5 18.8 051.5 18.8 7.4 f -1 +1 -3 23232 BD+24 543 HZ 316 TR109 no member Wo 9127 03 41 23 +24 36.6 0.05 165. G3 11.09 +0.86 +0.48 046.5 10.2 046.5 10.2 9.43 d HZ 320 TR113 Gl 151 03 41 41 +18 17.7 1.204 159.4 DQ8 15.19 +0.31 -0.54 +0.13 056.3 04.2 056.3 04.2 13.94 b G006-030 179 W024 Wolf 219 GJ 1063 03 42 05 +11 45.7 0.320 67.8 +81.9 dK8 M 9.15 +1.18 +1.16 +0.48 048. 06. r 7.56 c -85 -5 -19 BD+11 514 G079-066 V429 Gl 152 03 42 18 -38 26.5 0.361 35.9 +32. VAR K0 V 6.99 +0.88 +0.58 +0.28 064.2 15.3 061. 09. r 5.92 d -36 -16 -16 23484 CD-38 1264 NN 3248 03 42 52 +73 23.6 0.515 126.1 m 11.31 +1.54 +0.89 058.1 03.3 058.1 03.3 10.13 b G221-022 1596 LP 31-218 Gl 153 A 03 43 04 +68 30.9 0.291 27.0 +4.3 K7 K 9.33 +1.28 +1.20 +0.54 051.8 03.1 051.8 03.1 7.90 b +4 +3 +26 23189 BD+68 278 G221-023 LTT 11249 sep (A-BC) 17.0" 16d (1934) Gl 153 B 03 43 05 +68 31.2 0.309 21. +3.1 M2.5 J K 11.30 +1.54 J+1.20 J+0.90 J 051.8 03.1 051.8 03.1 9.87 b +7 +5 +27 G221-024 LTT 11250 AC+68:1482 V(BC) = 10.69 d(m) = 0.3 Gl 153 C 03 43 05 +68 31.2 0.309 21. 11.6 * 051.8 03.1 051.8 03.1 10.2 * b a = 0.67" P = 57.7 yr Gl 154 03 43 18 +26 03.8 0.410 119. +36.3 K7 K 9.61 +1.47 +1.22 +0.72 068.9 04.6 068.9 04.6 8.80 b -42 -17 -8 23453 BD+25 613 G006-034 V104 Gl 154.1A p 03 43 19 -28 01.2 0.364 63.6 +32.9 K5 V 8.25 +1.00 J+0.80:J+0.40 J 035.4 11.9 048. 07. r 6.66 d -41 -26 -4 23588 CD-28 1276 U069 ADS 2756 V(AB) = 8.22 d(m) = 3.30 Gl 154.1B p 03 43 19 -28 01.2 0.364 63.6 M3 V 11.6 * 035.4 11.9 048. 07. r 10.0 * d sep 1.8" 78d (1959) Gl 154.2 03 43 34 -64 57.8 0.325 75.6 +50.8 SB K0 IV 3.85 +1.13 +1.10 +0.41 043.7 12.8 043.7 12.8 2.1 e -17 -57 -17 23817 CP-65 263 BET Ret GJ 1064 A s 03 43 37 +41 17.4 1.375 153.9 +49.6 K1 V 8.15 +0.78 +0.20 048.9 06.1 048.9 06.1 6.60 c -86 -93 -65 23439 BD+41 750 G095-057 180 LTT 11256 Wolf 225 ADS 2757 GJ 1064 B s 03 43 37 +41 17.5 1.400 154.6 +51.5 SB K2 V 8.75 +0.90 +0.45 048.9 06.1 048.9 06.1 7.20 c -88 -93 -68 181 LTT 11257 sep 8" 50d (NLTT) Wo 9131 x 03 44 06 +23 50.5 0.044 158.1 +4.3 F0 V 8.38 +0.29 +0.08 048.6 17.0 048.6 17.0 6.8 f -4 -3 -3 23585 BD+23 528 HZ 1284 TR365 NN 3249 03 44 21 -11 27.0 0.551 78.8 M2.5 K 12.70 +1.53 +1.04 041. 09. r 10.76 d G160-022 1590 LTT 1777 L 805-8 LP 713-28 NN 3250 03 44 37 +08 33.1 0.789 144.0 k-m 14.51 +1.87 +1.39 079.7 03.5 079.7 03.5 14.02 a G007-004 1593 LTT 11262 Gl 155 03 44 42 -23 23.8 0.552 196.9 +6.9 F3 III 4.22 +0.42 +0.01 +0.14 056.1 09.2 056.1 09.2 2.96 d +36 -22 -21 23754 CD-23 1565 1591 27 TAU(6) Eri Wo 9132 x 03 45 08 +23 59.4 0.041 166.5 +7.1 F6 V 9.24 +0.54 +0.12 045.1 11.9 045.1 11.9 7.5 e -6 -2 -5 23713 BD+23 548 HZ 1726 Gl 155.1 03 45 23 +02 38.5 0.539 225.2 M1 K 11.04 +1.50 +0.82 048.0 08.7 048.0 08.7 9.45 d G080-022 1594 V430 AC+02:2282-51 NN 3251 03 46 07 +63 18.5 0.271 177. M3 L 11.39 +1.42 +1.23 +0.85t 045. 09. r 9.66 d G246-050 Wo 9134 s 03 47 24 -64 59.4 0.365 74.4 +19.3 G5 V 7.85 +0.66 +0.17 +0.22 042.6 11.9 026. 04. r 4.92 d -41 -52 +20 24293 CP-65 272 LTT 1791 Wo 9135 s 03 48 04 +23 45.2 0.166 106. +38. dK6 s 10.23 +1.16 +1.04 +0.45 046.8 15.3 027. 03. r 7.39 c -45 -17 -3 283066 BD+23 571 vB 170 Hyades GJ 1065 03 48 18 -06 13.6 1.428 196.8 dM4 12.79 +1.70 +1.40 +1.16 104.9 03.7 104.9 03.7 12.89 a G160-028 183 NN 3252 03 48 27 -01 01.3 0.525 175.6 m 18.02 +1.86 068.2 01.8 068.2 01.8 17.19 a 1604 LP 593-68 NN 3253 03 49 49 +16 52.7 0.766 147.5 M4.5 K 13.7 * +1.41 070.0 13.0 104. 15. r 13.8 * d G006-039 1610 LTT 11284 Wolf 227 NN 3254 03 50 33 +28 00.1 0.105 93.3 +20.3 G8 V 7.84 +0.84 041. 05. r 5.90 c -23 -3 +0 24365 BD+27 589 Gl 155.2 03 50 44 +61 01.4 0.506 118.2 +47.9 K0 V 7.86 +0.83 +0.46 +0.31 045.4 08.1 045.4 08.1 6.15 d -68 -14 +15 24238 BD+60 762 G246-053 1613 V433 Gl 155.3 03 51 31 -37 11.9 1.144 199.4 -67. M2.5 12.14 +1.45 +1.04 +0.93 051.7 09.8 051.7 09.8 10.71 d +120 +8 +31 CD-37 1501 184 NN 3255 03 51 37 +16 28.3 0.274 128.4 +22.2 G5 K 6.81 047. 05. o 5.17 c -24 -25 -7 24496 BD+16 527 LTT 11292 comp B: G5 optical NN 3256 03 52 01 -09 18.3 M3 s 11.22 +1.53 +1.14 +0.95 067. 13. r 10.35 d Steph 430 NN 3257 03 52 03 +59 29.7 0.310 303.9 G0 6.54 047. 05. o 4.90 c 24409 BD+59 736 LTT 11294 Gl 156 03 52 09 -06 58.8 0.531 357.6 +64.5 M0 V U 9.02 +1.36 +1.26 +0.62 069.8 06.1 069.8 06.1 8.24 b -66 +13 -30 BD-07 699 G160-035 5087 V434 Gl 156.1A 03 52 55 +53 25.3 0.458 139.6 -5.0 dM1.5e W 10.86 +1.43 +1.21: +0.84 053.6 11.9 053.6 11.9 9.51 d -17 -37 -7 G175-011 6 V226 LTT 11297 Ross 23 AC+53:2250-45 comp Wor 5 prob. optical NN 3258 03 54 22 -25 19.3 0.295 159.7 G8 V 6.88 055. 06. o 5.58 c 24892 CD-25 1653 LTT 1829 Gl 156.2 03 54 49 +76 01.6 0.637 147.3 +20.0 K4 V 8.26 +1.15 +1.04 049.2 04.8 049.2 04.8 6.72 c -59 -24 -9 24451 BD+75 154 G248-010 1619 GJ 1066 03 54 53 -41 29.3 0.105 28.0 K4 V 8.94 +1.21 +1.14 +0.50 053. 08. r 7.56 d 25004 CD-41 1208 U 72 Gl 157 A 03 54 57 -01 18.0 0.245 233.2 +5.7 K4 V U 8.04 +1.11 +1.03 +0.45 071.7 15.5 068. 09. r 7.20 c +6 +1 -17 24916 BD-01 565 U071 Gl 157 B 03 54 57 -01 18.0 0.245 233.2 +14.0 SB dM3 e W 11.61 +1.47 +1.08 +1.02 071.7 15.5 068. 09. r 10.77 c +0 -1 -22 Gl 157.1 03 56 49 +25 57.2 0.778 107.5 +94.0 dM4 W 12.62 +1.49 +1.67 +1.14 043.8 05.2 043.8 05.2 10.83 c -115 -52 +3 G006-042 1616 Wolf 1322 Wo 9141 q 03 57 20 +51 15.4 0.852 156.7 M3.5 K 13.65 038.9 08.5 038.9 08.5 11.60 d G175-013 1618 LTT 11315 LFT 324 NN 3259 03 57 46 +08 06.0 0.519 222.1 DC9 15.87 +0.69 +0.00 056.7 03.7 056.7 03.7 14.64 b G007-016 1617 W LTT 11318 NN 3260 03 58 31 -23 13.2 M0 s 11.47 +1.48 +1.17 +0.83 043. 07. r 9.64 d Steph 442 Gl 158 s 03 59 53 +35 09.3 2.201 127.7 -25.6 K1 V 8.51 +0.87 +0.37 +0.34 054.8 07.4 054.8 07.4 7.20 c -40 -187 +21 25329 BD+34 796 21 LTT 11321 Gl 159 04 00 03 -00 24.2 0.288 150.3 +17.7 VAR F6 V 5.37 +0.50 +0.00 +0.19 055.2 04.8 055.2 04.8 4.08 b -8 -27 -12 25457 BD-00 632 Wo 9142 s 04 01 57 +00 06.9 0.408 209.0 -38. G8 K 8.33 +0.77 +0.37 040.9 07.3 040.9 07.3 6.39 d +59 -10 -12 25682 BD-00 636 G080-041 LTT 11337 Gl 160 04 02 22 +21 52.5 0.222 129.0 +23.9 G5 V 5.90 +0.62 +0.12 +0.22 057.5 05.8 057.5 05.8 4.70 c -25 -15 -7 25680 BD+21 587 NN 3261 04 02 59 +05 36.6 0.152 146. dM5 e R 12.89 063. 08. p 11.89 c Rob 256 NN 3262 p 04 03 26 +82 47.4 0.273 160. +7. dM0 M 10.82 +1.44 +1.25 +0.71 036.3 11.9 042. 07. r 8.94 d -29 -9 -9 G222-001 V105 LTT 11332 AC+82:779 Wo 9143 04 03 34 -27 47.2 0.222 64.1 +63.3 F1 IV 5.58 +0.32 +0.05 043.1 10.2 043.1 10.2 3.8 e -47 -39 -30 25945 CD-27 1540 LTT 1864 Gl 161 04 04 23 +69 24.8 0.308 165.1 -10.8 dK2 W 7.70 +0.91 +0.77 057.0 09.4 052. 07. r 6.28 c -10 -23 -17 25665 BD+69 238 G247-013 Gl 160.2 04 04 23 -20 58.5 0.770 177.2 +28.0 dM0 W 9.68 +1.22 +1.14 +0.48 049.3 06.4 049.3 06.4 8.14 c +37 -61 -34 BD-21 784 1628 NN 3263 04 05 13 -24 36.6 0.658 162.8 M3.5 12.4 * +1.19 081. 16. r 11.9 * d 1630 LP 833-42 Gl 161.1 04 05 16 +37 54.6 0.261 139.9 +26.2 F7 V 5.52 +0.46 -0.03 047.8 13.6 043. 05. r 3.69 c -33 -18 -8 25998 BD+37 882 Gl 161.2 s 04 05 21 -40 53.4 0.339 344. k 10.98 +1.13 +0.62C 045.9 13.6 019. 03. r 7.37 d CD-41 1288 L 374-20 Gl 162 04 05 23 +33 30.2 0.575 77.0 +36.8 M1 K 10.18 +1.51 +1.18 +0.83 072.7 07.8 072.7 07.8 9.49 c -47 -7 +22 G038-026 1634 AC+33:10883 Ross 587 Gl 162.1 04 06 49 -64 21.5 0.389 32.5 +27.5 G3 V 6.38 +0.64 +0.10 +0.22 039.3 16.9 049. 08. r 4.83 d -34 -28 -15 26491 CP-64 305 NN 3264 04 07 15 -08 01.5 0.114 18.1 -9.4 G2 IV-V 7.04 042. 05. o 5.16 c -2 +9 +13 26337 BD- 8 801 GJ 1067 04 07 26 +70 04.4 0.10 289. dM0 M 9.69 +1.23 +1.19 +0.50 047.4 10.2 041. 05. r 7.75 c V435 NN 3265 04 07 30 +49 24.5 0.483 166.4 M3.5 K 13.45 +1.15 043. 08. r 11.62 d G175-017 5091 LTT 11358 Ross 27 NN 3266 04 07 34 +64 36.6 0.647 130.0 m 13.71 +1.69 +1.32 084.5 02.9 084.5 02.9 13.34 a G247-015 1638 Gl 163 04 07 56 -53 30.7 1.211 060.4 +66. M3.5 11.81 +1.50 +1.18 +1.08 064.9 10.1 064.9 10.1 10.87 d -74 -82 -3 188 L 229-091 NN 3267 s 04 08 37 +76 09.9 0.239 166.4 +10.4 G5 8.19 +0.84 +0.52 042.4 10.7 036. 05. r 5.97 d -30 -8 -12 26018 BD+75 166 LTT 11362 Gl 164 04 09 09 +52 29.7 0.910 203.7 M3.5 K 13.50 +1.67 +1.37 075.3 07.0 075.3 07.0 12.88 c G175-019 1642 Ross 28 GJ 1068 04 09 17 -53 42.0 2.521 198.1 +27. pec 13.58 +1.93 +2.11 +1.30 080. 22. r 13.1 e +146 -32 -24 22 Gl 165 AB 04 09 27 +50 24.2 0.457 242.8 M3.5 K 13.67 J+1.75 J +1.31 J 061.9 08.5 061.9 08.5 12.63 Jd G175-020 6 Ross 29 comp.B: CHARA 15 (AJ 93, 688) sep 1.261" (1983) Gl 165.1 04 11 20 +58 24.0 0.287 139.4 +21.9 K3 K 8.67 +1.00 +0.84 050.9 08.5 050.9 08.5 7.20 d -33 -10 -1 26581 BD+58 724 G175-024 NN 3268 04 11 26 -54 00.1 0.838 39.2 m 13.87 +1.56 +1.13 +1.19 040. 08. r 11.88 d 1639 LTT 1901 L 230-205 Gl 165.2 s 04 11 53 +02 53.6 0.280 19.7 +53.3 K3 V U 8.79 +0.97 +0.78 +0.47C 048.3 13.5 037. 06. r 6.63 d -63 +10 -4 26794 BD+02 665 G080-042 U075 GJ 1069 04 12 40 -04 32.5 0.133 136.8 K5 V U 9.39 +1.22 +1.12 +0.51 046. 08. r 7.70 d BD-04 782 U 76 NN 3269 s 04 12 43 +15 34.9 0.128 103.5 M2 11.01 +1.24 +0.51 097.0 38.0 023. 03. r 7.82 c 285590 VA 75 GH7-140 Gl 166 A 04 12 58 -07 43.8 4.083 213.1 -42.7 K1 Ve 4.43 +0.82 +0.45 +0.31 207.1 02.5 207.1 02.5 6.01 a +95 -11 -39 26965 BD-07 780 23 LTT 1907 OMI(2) Eri Gl 166 B 04 13 04 -07 44.1 4.073 212.4 -21. DA4 W 9.52 +0.03 -0.68 -0.10 207.1 02.5 207.1 02.5 11.10 a +112 -6 -24 26976 BD-07 781 G160-060 24 W033 LTT 1908 40 Eri B Gl 166 C 04 13 04 -07 44.1 4.073 212.4 -45.9 dM4.5e W 11.17 +1.67 +0.83 +1.31 207.1 02.5 207.1 02.5 12.75 a +97 -11 -36 25 LTT 1909 DY Eri GJ 2033 04 14 22 -12 41.0 0.256 340. k-m 10.87 +1.55 +1.35 106. 49. r 11.0 f G160-061 LTT 1919 L 806-34 NN 3270 04 14 35 +08 42.3 0.379 159. dM4 e R 13.82 +1.40 095. 14. r 13.71 d G007-034 LTT 11392 Rob 270 Gl 167 04 14 39 -53 26.3 0.881 63.1 -23.2 K5 V 7.64 +1.13 +1.06 +0.42 075.6 09.4 075.6 09.4 7.03 c -37 -8 +46 27274 CP-53 672 1650 U078 Gl 167.1 04 14 43 -51 36.7 0.212 28.2 +25.2 F4 III 4.25 +0.30 +0.02 +0.18 044.4 16.7 044.4 16.7 2.5 f -25 -18 -13 27290 CD-51 1066 BS 1338 GAM Dor Gl 167.2 s 04 15 03 -26 10.6 0.700 58.6 +55. M0 K 11.80 +1.38 +1.1 : +0.74 051.7 10.2 051.7 10.2 10.37 d -73 -43 +5 1651 LP 834-41 L 590-10 NN 3271 04 15 31 +75 01.8 0.778 132.8 M3 K 12.16 +1.51 +1.03 054. 13. r 10.8 e G248-019 1663 LTT 11395 SA 3-112 Gl 167.3 04 15 37 -59 25.3 0.170 197.5 +29.3 K2 IV 4.44 +1.07 +1.08 +0.37t 067.0 08.4 067.0 08.4 3.57 c +12 -22 -20 27442 CP-59 324 EPS Ret NN 3272 04 16 37 -49 10.5 0.506 5.3 M4 K 13.2 * +1.11 046. 09. r 11.5 * d 1654 LTT 1935 L 302-94 NN 3273 04 18 46 +51 49.6 0.175 119.1 G5 7.73 046. 05. o 6.04 c 27456 BD+51 913 NN 3274 04 18 52 +21 12.9 0.254 151. k-m 13.03 +1.56 +1.08 042. 19. r 11.1 f G008-029 LTT 11407 L 1310-30 LP 415-18 GJ 1070 04 19 08 +38 54.2 0.712 136.2 k-m 15.27 +1.71 +1.42 053.7 04.7 053.7 04.7 13.92 b G039-009 1667 NN 3275 04 19 13 +19 08.5 0.119 260. dM4.5e 12.9 * +1.7 104. 42. r 13.0 * f LP 415-636 BPM 85717 Gl 168.1 x 04 19 15 +19 21.9 0.003 18.4 15.04: +1.0 : +0.70 070.1 18.8 070.1 18.8 14.3 : e LOWNE 1 Gl 168.2 x 04 19 18 +19 22.3 0.280 148. m 15.77: +1.0 : +1.10 059.1 15.3 059.1 15.3 14.6 : e LOWNE 2 LP 415-26 ppm(NLTT) NN 3276 04 19 24 +15 23.9 0.07 115. m 17. * +2.74C* 042. 06. p 15. * e LP 415-1446 No 190 in Leggett & Hawkins MN 234, p 1065 (1988) GJ 2034 04 19 36 -48 46.1 0.556 175.6 DA8 14.36 +0.52 -0.45 123. 14. w 14.81 c 1660 W LTT 1951 LFT 349 L302-89 BPM 31852 NN 3277 04 20 15 +09 17.2 0.079 314.4 G5 8.04 040. 05. o 6.05 c 27733 BD+ 9 568 NN 3278 s 04 21 07 +16 36.2 0.12 100. dM0 s 12.55 +1.49 +0.82 049.0 22.0 025. 04. r 9.54 d VA 297 NN 3279 04 21 16 -57 33.2 0.534 208.5 m 11.8 * +1.04 065. 13. r 10.9 * d 1665 LTT 1960 L 178-49 NN 3280 04 21 36 +32 20.2 0.274 121. k-m 12.44 +1.51 +1.15 039. 19. r 10.4 f G039-011 LTT 11417 L 1455-12 LP 302-22 NN 3281 s 04 22 08 +16 52.3 0.104 105.9 +43. M2 10.31 +1.04 +0.93 +0.37 039.0 13.0 019. 02. r 6.70 c -46 -21 -3 285742 BD+16 593 VA342 NN 3282 A 04 22 32 +07 56.1 0.145 86. m 12.63 +1.05 042. 05. r 10.75 c LDS 3584A NN 3283 B 04 22 34 +07 57.2 0.145 86. m 14.97 +1.31 042. 05. r 13.09 c LDS 3584B NN 3284 s 04 22 58 +15 24.3 0.13 103. dM0 12.13 +1.40 +1.04 052.0 17.0 052.0 17.0 10.7 e VA366 GH7-208 NN 3285 04 23 07 +12 05.2 0.261 210. DC8 15.5 : 081. 11. w 15.0 : d G083-010 W169 LP 475-70 LB 1320 Wo 9155 A 04 23 13 -57 11.0 0.234 237.5 -5.2 G4 V 6.88 +0.66 J+0.19 J 039.7 06.9 040. 05. r 4.89 c +21 +15 -10 28255 CP-57 659 BS 1405 V(AB) = 6.29 d(m) = 0.35 Wo 9155 B 04 23 13 -57 11.1 0.029 93.9 -3.7 G6 V 7.3 * 039.7 06.9 040. 05. r 5.3 * c -1 +1 +5 sep 5.8" NN 3286 04 23 19 -40 09.3 0.674 182.8 M3.5 K 14.1 * +1.33 060. 13. r 13.0 * d 1668 LTT 1976 L 374-6 NN 3287 04 23 23 +59 28.8 0.234 151. m 14.45 +1.28 045. 08. r 12.72 d G175-032 NN 3288 04 23 40 +04 26.3 0.856 132.3 DC9 17.11 +1.10 043. 04. w 15.28 c 1670 W482 LP 535-11 NN 3289 04 23 43 +03 30.7 1.033 186.4 m 18.32 058.7 01.8 058.7 01.8 17.16 a 191 LP 535-12 NN 3290 s 04 24 24 +17 07.6 0.11 105. dM1 13.06 +1.49 +0.91 051.0 17.0 025. 05. r 10.05 d VA420 GH7-221 Wo 9156 s 04 24 42 -64 11.8 0.333 350.0 +52.7 G5 V 7.91 +0.65 +0.16 043.8 10.2 026. 04. r 4.98 d -50 -26 -58 28471 CP-64 334 LTT 1986 NN 3291 04 25 06 +11 40.7 0.575 147.3 k 13.85 +1.20 043. 08. r 12.02 d G007-039 1671 LTT 11432 Gl 169 04 26 02 +21 48.7 0.185 337.4 -31.4 K7 V 8.27 +1.35 +1.22 +0.62 085.4 05.8 085.4 05.8 7.93 b +30 +7 +13 28343 BD+21 652 V008 NN 3292 04 26 28 +14 07.2 0.292 54. m 13.5 : +1.31 079. 13. r 13.0 : d G008-038 LTT 11438 NN 3293 04 26 31 -25 16.4 0.521 187.3 M2.5 K 12.0 * +1.02 055. 09. r 10.7 * d 1672 LTT 1993 L 591-6 LP 834-42 Gl 169.1A 04 26 47 +58 53.9 2.383 144.8 +17. dM4 11.08 +1.65 +1.20 +1.14 181.9 01.1 181.9 01.1 12.38 a -48 -43 -6 G175-034 26 AC+58:25001 Stein 2051 Gl 169.1B 04 26 47 +58 53.9 2.383 144.8 DC5 12.44 +0.31 -0.52 -0.49 181.9 01.1 181.9 01.1 13.74 a G175-034 27 W180 AC+58:25002 sep 7" 89d (NLTT) Gl 170 04 26 59 +39 44.9 0.588 154.3 M4.5 K 13.91 +1.73 +1.33 +1.41 095.9 03.1 095.9 03.1 13.82 a G081-021 1674 Ross 594 NN 3294 04 27 31 +17 23.3 0.07 113. k-m 14.57 +1.75 063.0 26.0 063.0 26.0 13.6 f VA575 LP 415-148 Gl 170.1 04 27 42 +16 05.2 0.100 110.5 +41.0 A6 IV 4.78 +0.17 +0.13 052.3 11.9 052.3 11.9 3.37 d -40 -8 -11 28527 BD+15 637 NN 3295 04 29 11 +64 31.7 0.088 299.3 G0 7.74 040. 05. o 5.75 c 28495 BD+64 458 NN 3296 04 30 36 +20 38.7 0.546 126.6 m 14.6 * +1.39 064. 09. r 13.6 * d G008-041 1681 LTT 11454 NN 3297 04 30 59 +34 43.5 0.336 148. g-k 13.13 +1.57 +1.17 043. 20. r 11.3 f G039-024 LTT 11455 L 1455-1 LP 250-2 Wo 9158 s 04 31 11 +05 17.1 0.281 196.7 K1 K 7.93 +0.79 +0.35 043.7 20.5 037. 06. r 5.77 d 28946 BD+05 678 G082-030 LTT 11456 NN 3298 04 31 22 -37 03.0 0.052 333.7 K3/5 V 8.79 +0.99 +0.84 +0.40 041. 04. r 6.85 c 29086 CD-37 1799 U 84 CP-37:540 NN 3299 AB 04 31 29 +39 02.4 0.137 217.8 K5 9.3 * 040.0 05.3 040.0 05.3 7.3 * c 276666 BD+38 912 ADS 3303 sep 0.3" d(m) = 0.5 Gl 171 q 04 31 59 +55 18.9 0.621 116.2 +50. SB K2 V 8.34 +0.90 +0.67 034.6 12.2 039. 06. r 6.30 d -75 -39 +32 237287 BD+55 900 G175-039 1684 GJ 1071 04 32 26 -43 37.6 0.096 143.2 K5 V 8.86 +1.11 +1.00 +0.42 046. 07. r 7.17 d 29220 CD-43 1472 U 85 BPM 31946 NN 3300 04 32 50 -35 45.4 0.248 201.6 G8 V 7.58c +0.81c 043. 06. r 5.75c d 29231 CD-35 1797 LTT 2036 V,B-V from CPC NN 3301 AB 04 33 03 +16 24.6 0.094 112.1 +54.0 K 11.2 * 043.1 09.0 043.1 09.0 9.4 * d -52 -10 -14 ADS 3321CD sep(AC) 121.7" 33.5d; sep(CD) 1.7" 273.8d d(m) = 2.4 Gl 171.1A 04 33 03 +16 24.6 0.200 161.1 +54.5 K5 III 0.85 +1.54 +1.90 +0.70 049.4 04.9 049.4 04.9 -0.68 c -49 -19 -25 29139 BD+16 629 ALF Tau ADS 3321 Gl 171.1B 04 33 03 +16 24.6 0.200 161.1 dM2 13.5 * 049.4 04.9 049.4 04.9 12.0 * c sep 30.4" 110d Gl 171.2A 04 33 42 +27 02.0 0.288 122.3 +35.2 SB dK5 ep 8.42 +1.12 +0.88 +0.51 061.1 03.0 061.1 03.0 7.35 b -38 -17 -2 283750 BD+26 730 G008-044 Gl 171.2B 04 33 39 +27 03.9 0.278 118. DC8 15.80 +0.65 -0.05 061.1 03.0 061.1 03.0 14.73 b G039-027 W040 LP 358-525 Gl 172 04 33 43 +52 48.0 0.556 145.2 +32.9 SB? K8 Ve 8.61 +1.40 +1.14 +0.65 098.5 02.4 098.5 02.4 8.58 a -41 -9 -1 232979 BD+52 857 G175-042 1688 V449 NN 3302 04 33 52 +11 07.0 0.632 058.6 k-m 14.30 +1.62 +1.16 +1.24 040.4 06.2 040.4 06.2 12.33 d G083-022 1686 LTT 17665 NN 3303 04 34 55 -29 09.6 0.517 71.0 M3.5 K 13.7 * +1.17 041. 08. r 11.8 * d 1687 LTT 2047 L 591-70 LP 890-46 NN 3304 04 35 04 +28 07.1 0.366 98. m 12.53 +1.65 +1.29 +1.26 100. 17. r 12.53 d G039-029 LTT 11472 NN 3305 04 35 06 -02 35.5 M1 s 10.59 +1.45 +1.06 +0.86 068. 12. r 9.75 d Steph 497 Gl 173 04 35 21 -11 08.1 0.318 227. -7.0 dM1 W 10.36 +1.50 +1.17 +0.93 094.0 08.5 094.0 08.5 10.23 b +15 +2 -9 BD-11 916 V106 NN 3306 04 35 24 -08 53.9 1.520 171.2 DQ7 13.77 +0.33 -0.72 105.1 02.6 105.1 02.6 13.88 a 194 W041 L 879-014 LTT 2049 L 879-14 LP 655-42 Wo 9160 A 04 35 53 -14 24.0 0.176 207.5 +41.8 K2 IIIb 3.91 +1.10 J+1.01 J 041.0 08.5 041.0 08.5 1.97 d -14 -24 -37 29503 BD-14 933 BS 1481 Kpr 18 V(AB) = 3.87 d(m) = 3.44 Wo 9160 B 04 35 53 -14 24.0 0.176 207.5 7.3 * 041.0 08.5 041.0 08.5 5.4 * d sep 0.8" Gl 173.1A s 04 36 58 +09 46.8 0.364 182.8 -21.3 SB K3 V U 9.20 +1.02 +0.82 +0.43 049.4 06.8 049.4 06.8 7.67 c +31 -24 -11 286955 BD+09 621 G083-028 V451 Gl 173.1B s 04 36 59 +09 46.1 0.358 179. k-m 14.19 +1.57 +1.06 +1.10 049.4 06.8 049.4 06.8 12.66 c G083-029 sep 34" 162d (NLTT) NN 3307 04 38 06 +02 08.2 M0 s 11.24 +1.47 +1.26 +0.89 055. 10. r 9.94 d Steph 502 Wo 9163 AB 04 38 06 -09 17.3 0.158 226. dM0 M 10.97 +1.48 J+1.17 J+0.82 J 051. 08. r 9.51 d BD- 9 956 V452 Wor 17 sep 2" d(m) = 0.1 , V(AB) = 10.27 Gl 174 04 38 22 +20 48.6 0.353 223.5 +7. K3 V 8.00 +1.10 +0.91 +0.49 071.2 08.9 071.2 08.9 7.26 c +0 -3 -24 29697 BD+20 802 G008-051 Gl 174.1A 04 38 57 -41 57.5 0.166 242.7 +0.8 F2 V 4.44 +0.34 +0.01 +0.20C 044.8 23.3 044.8 23.3 2.7 f +11 +6 -12 29875 CD-42 1587 ALF Cae Gl 174.1B 04 38 57 -41 57.5 0.166 242.7 12.5 * 044.8 23.3 044.8 23.3 10.8 * f Gl 175 A s 04 39 29 -59 02.5 0.166 11.8 +10.1 G5 V J 7.19 +0.68 J+0.24 J+0.22 J 063.2 18.8 039. 07. r 5.15 d -20 -7 -7 30003 CP-59 370 BS 1504 V(AB) = 6.53 d(m) = 0.21 Gl 175 B s 04 39 29 -59 02.5 0.166 11.8 7.4 * 063.2 18.8 039. 07. r 5.4 * d a = 1.902" P = 240.0 yr Gl 176 04 39 58 +18 52.8 1.286 146.7 +26.0 SB? dM2.5e W 9.98 +1.52 +1.18 +0.96 107.4 03.2 107.4 03.2 10.14 a -23 -57 -12 BD+18 683 G008-055 196 V107 Gl 176.1 04 40 17 -37 14.5 0.199 11.7 +26.8 F1 V 5.05 +0.38 +0.02 +0.22C 056.9 13.6 056.9 13.6 3.8 e -25 -12 -14 29992 CD-37 1867 BET Cae Gl 176.2 04 40 29 +27 35.9 0.271 167.6 +17.1 K3 K 8.00 +0.90 +0.63 044.9 06.3 044.9 06.3 6.26 d -17 -24 -16 29883 BD+27 688 G085-011 other SpT: K5 III OP NN 3308 04 40 31 +18 54.7 0.030 29. 13.4 * 040.3 10.2 040.3 10.2 11.4 * e AC+19:1513-210 Ann Shanghai Obs. Vol. 10, p 57 (1989) NN 3309 04 41 19 +27 46.5 0.420 166. M2.5 L 11.26 +1.53 +1.21 077. 36. r 10.7 f G039-034 LTT 11502 NN 3310 04 41 28 +29 43.9 0.271 214. k-m 13.45 +1.60 +1.55 045. 20. r 11.7 f G039-035 LTT 11503 NN 3311 04 42 28 +48 40.0 1.204 122.5 m 17.29 051.8 01.0 051.8 01.0 15.86 a 197 LP 157-25 V-I = 3.79 (USNO), wrong chart in LHS NN 3312 04 42 56 +42 15.5 0.065 0.0 +28.8 G0 6.52 052. 06. o 5.10 c -26 +13 +3 30090 BD+42 1045 Gl 176.3 04 44 23 -50 09.6 0.552 232.5 +17.0 K0 V 7.59 +0.89 +0.57 +0.29 049.9 05.9 049.9 05.9 6.08 c +37 +4 -41 30501 CD-50 1492 1701 NN 3313 04 44 36 +02 04.3 0.260 268. k 11.34 +1.48 +1.20 053. 26. r 10.0 f G082-048 LTT 17686 Gl 177 04 45 21 -17 01.5 0.213 36.8 +21.7 G1 V 5.49 +0.63 +0.13 +0.22 078.9 09.2 078.9 09.2 4.98 c -23 -9 -3 30495 BD-17 954 NN 3314 04 45 39 -11 01.2 0.110 142.1 K7 V 9.53 +1.14 +1.10 +0.48 041. 06. r 7.59 d 30523 BD-11 965 NN 3315 04 46 35 +45 53.9 0.319 139. k-m 11.79 +1.47 +1.21 041. 20. r 9.9 f G081-036 LTT 11515 L 1672-41 LP 157-32 Gl 178 04 47 07 +06 52.5 0.464 88.1 +24.4 F6 V 3.19 +0.45 -0.01 +0.16 133.1 07.4 133.1 07.4 3.81 b -26 -14 +3 30652 BD+06 762 1 PI(3) Ori NN 3316 04 47 44 +26 02.4 0.617 111.9 m 12.84 +1.54 +1.33 +1.03 039. 08. r 10.80 d G039-037 1705 LTT 11519 GJ 1072 04 47 49 +22 02.7 0.744 123.6 m 15.21 +1.95 +0.94 +1.52 071.4 05.7 071.4 05.7 14.48 b G085-019 1706 Wo 9168 04 48 03 +45 45.5 0.674 144.8 +25.9 G1 IV-V 6.97 +0.58 +0.04 +0.23 040.9 10.8 040.9 10.8 5.0 e -51 -64 -6 30649 BD+45 992 G081-038 1708 LFT 375 NN 3317 04 48 04 -35 11.5 0.114 194.4 K2 V 7.45c +0.90c 060. 09. r 6.34c d 30876 CD-35 1948 V, B-V from CPC GJ 1073 04 49 02 +40 38.3 1.633 133.2 k 13.43 +1.61 +1.29 077.4 02.8 077.4 02.8 12.87 a G081-039 198 Gl 179 04 49 24 +06 23.8 0.340 152. -7.8 dM4 e W 11.98 +1.56 +1.22 076.7 09.0 076.7 09.0 11.40 c +12 -19 +1 G082-052 Wolf 1539 GJ 2035 04 50 04 +22 09.3 0.195 131.7 K5 V O 8.77 +1.01 +0.90 +0.41t 043. 07. r 6.94 d 30973 BD+21 717 AG+22:478 Gl 180 04 51 35 -17 50.7 0.765 143.8 -15. M3 : K 10.90 +1.54 +0.94 083.8 08.2 083.8 08.2 10.52 c +30 -30 +17 1712 L 736-030 NN 3318 04 51 46 -20 37.4 0.244 349. M0 V U 10.12 +1.25 +1.22 +0.56 040. 07. r 8.13 d BD-20 958 U097 LTT 2117 NN 3319 04 52 15 -35 29.2 0.197 36.9 K0 V 7.60c +0.77c 043. 06. r 5.77c d 31392 CD-35 1989 LTT 2120 V, B-V from CPC GJ 2036 A 04 52 30 -55 56. 0.13 59. M2 Ve U 11.13 +1.57 +1.08 +1.10 095. 22. r 11.0 e U098 LDS 131A BPM 17964 GJ 2036 B 04 52 30 -55 56. 0.13 59. 12.15 +1.60 +1.28 095. 22. r 12.0 e U098B LDS 131B BPM 17965 sep 9" Eggen Wo 9169 A s 04 53 17 +04 35.5 0.233 145.6 F8 7.02 +0.55 +0.06 040.2 13.6 029. 04. r 4.33 d 31412 BD+04 782 LTT 11546 Wo 9169 B s 04 53 15 +04 35.7 0.230 148. k 14.6 P 040.2 13.6 029. 04. r 11.9 P d G097-007 sep 22" 278d GJ 2037 p 04 53 42 -28 38.3 0.285 137.9 +12.1 K3/4 V 8.13 +1.07 +0.96 +0.39 030.1 11.9 057. 06. r 6.91 c +5 -26 +2 31560 CD-28 1839 U099 LTT 2124 GJ 1074 04 54 50 +50 52.4 0.590 123.2 M1 K 10.98 +1.48 +0.80 054.8 11.9 054.8 11.9 9.67 d G191-015 1721 V457 Gl 181 04 55 00 +49 46.5 0.155 136.7 -33.9 dM2 e M 9.78 +1.44 +1.22 +0.71 057.7 06.5 057.7 06.5 8.59 c +27 -25 -2 BD+49 1280 V109 Gl 181.1 s 04 55 14 -61 13.9 1.102 123.0 +42. m 12.06 +1.48 +1.11 +0.75 045.2 10.6 027. 04. r 9.22 d +75 -141 +117 199 L 131-006 Gl 182 04 56 59 +01 42.6 0.16 195. +18.2 dM0.5 W 10.09 +1.39 +1.13 +0.75 052.9 20.2 061. 13. r 9.02 d -10 -12 -16 V111 AC+01:1951-103 NN 3320 q 04 58 11 +24 48.4 0.457 150. M2.5 K 11.51 +1.48 +1.21 034.3 14.7 063. 16. r 10.5 e G085-036 LTT 11561 Ross 794 Gl 183 04 58 20 -05 48.6 1.233 153.5 +22.2 SB K3 V 6.22 +1.06 +1.02 +0.36 110.7 03.9 110.7 03.9 6.44 a +5 -56 -11 32147 BD-05 1123 200 U102 NN 3321 04 59 12 +03 41.7 M1 s 11.28 +1.52 +1.20 +0.86 051. 09. r 9.82 d Steph 539 NN 3322 04 59 14 +09 54.8 0.120 157. dM3 R 11.47 +1.52 +0.98 +1.24 142. 32. r 12.23 d LP 476-207 Rob 285 Steph 538 Gl 184 04 59 17 +53 04.8 1.989 139.4 +66.0 dM0 W 9.93 +1.41 +1.16 +0.76 067.5 05.2 067.5 05.2 9.08 b -117 -100 +16 BD+52 911 G191-019 201 V110 NN 3323 04 59 33 -07 00.6 0.773 224.5 m 12.1 * +1.33 163. 26. r 13.2 * d 1723 LP 656-38 Gl 185 A 05 00 20 -21 19.4 0.308 211.1 -17.2 M0 V J 8.46 +1.41 J+1.15 J+0.72 J 129.6 07.5 129.6 07.5 9.02 b +19 +7 +2 32450 BD-21 1051 V112 V(AB) = 8.31 d(m) = 2.1 , dM1 J (Wilson) Gl 185 B 05 00 20 -21 19.4 0.308 211.1 10.5 * 129.6 07.5 129.6 07.5 11.1 * b a = 1.40" P = 42.7 yr NN 3324 05 00 48 +24 54.3 0.174 135.1 +51.1 G8 V 7.44 +0.80 046. 06. r 5.75 c -51 -16 -6 32387 BD+24 739 NN 3325 05 01 07 -17 26.2 0.501 202.8 M3 K 11.69 +1.63 +1.11 085. 20. r 11.3 e 1731 LTT 2153 L 736-49 LP 776-46 Gl 186 05 01 15 -23 19.3 0.327 64.3 +110.1 VAR K5 V U 9.28 +1.28 +1.23 +0.63 050.2 07.2 050.2 07.2 7.78 d -81 -73 -35 CD-23 2363 V113 Gl 186.1A s 05 01 20 -56 09.7 0.722 356.8 +2.9 G5 V 7.02 +0.63 +0.03 +0.25 050.7 08.2 038. 04. r 4.92 c -88 +15 -13 32778 CD-56 1071 1724 Gl 186.1B s 05 01 28 -56 10.5 0.62 354. m 10.60 +1.36 +1.14 +0.62 050.7 08.2 038. 04. r 8.50 c CP-56 768 1727 LTT 2159 L 179-10 sep 78" 124d (LHS) NN 3326 05 01 29 +10 59.1 0.212 341. m 13.75 +1.32 073. 12. r 13.07 d G097-015 LTT 17736 Gl 187 05 01 30 -49 13.3 0.047 301.9 +21.4 F2 V 5.37 +0.43 -0.01 +0.24C 042.2 09.8 039. 05. r 3.33 c -6 -13 -17 32743 CD-49 1541 ETA(1) Pic Gl 187.1 x 05 02 30 -42 25.8 0.227 128. +59.8 K0 C 10.04 +0.74 +0.20 +0.40C 052.1 10.2 052.1 10.2 8.62 d -9 -58 -24 273011 CP-42 588 Gl 187.2A s 05 02 45 +51 32.0 0.178 187.5 +0.6 SB F0 V 5.00 +0.33 -0.01 047.1 21.6 047.1 21.6 3.4 f -7 -11 -12 32537 BD+51 1024 NN 3327 05 02 53 -12 04.3 0.187 254. +2.1 M4 e 12.97 +1.46C 054. 12. r 11.63 d +4 +5 -15 LP 716-35 NN 3328 05 03 24 +04 16.2 0.375 76. g 11.54 +1.51 +1.17 059. 28. r 10.4 f G084-036 LTT 17742 NN 3329 05 03 39 -17 27.3 0.687 015.6 DC9? 15.97 +0.74 +0.00 046.2 04.6 046.2 04.6 14.29 c 1734 W LP 777-1 NN 3330 q 05 03 51 +14 23.0 0.379 131.0 +32.5 K0 V 7.75 +0.80 +0.41 025.8 20.5 041. 07. r 5.81 d -29 -46 +2 32850 BD+14 831 G097-019 LTT 11580 Gl 188 A 05 04 30 +18 34.8 0.535 87.0 +20.6 G4 V 5.60 +0.65 J+0.14 J+0.23 J 058.8 04.3 058.8 04.3 4.45 b -27 -25 +31 32923 BD+18 779 1736 BS 1656 ADS 3701 V(AB) = 4.90 d(m) = 0.10 Gl 188 B 05 04 30 +18 34.8 0.535 87.0 G4 V 5.70* 058.8 04.3 058.8 04.3 4.55* b a = 0.10" P = 2.38 yr or a = 0.18" P = 1.19 yr Gl 189 05 04 39 -57 32.4 0.121 344.0 -2.4 F7 V 4.71 +0.52 -0.04 +0.20 087.8 23.2 073. 09. r 4.03 c -7 +4 -1 33262 CP-57 735 BS 1674 ZET Dor NN 3331 A 05 04 42 -21 39.0 M2 s 10.29 +1.52 +0.90 083. 12. r 9.89 d BD-21 1074 Steph 546 NN 3332 BC 05 04 41 -21 39.0 M3: s 11.66 +1.51 J +1.14 J 083. 12. r 11.26 d Steph 545 sep(AB) 8.3" 319d, sep(BC) 1.3" 30d V(BC) = 11.30 d(m) = 1 NN 3333 05 04 54 +17 55.3 0.287 160. k 11.78 +1.66 +1.32 +1.08 081. 18. r 11.32 d G085-041 LTT 11586 Wolf 230 NN 3334 05 04 54 +09 24.7 0.381 179.1 -22.2 G1 IV 6.17 +0.62 +0.10 +0.22 040.2 03.3 040.2 03.3 4.19 b +36 -31 -16 33021 BD+09 736 LTT 11585 GJ 1075 05 04 56 -57 37.3 0.119 346.4 K7 V U 9.02 +1.40 +1.20 +0.65 081. 16. r 8.56 d CD-57 1079 U106 BPM 18005 CP-57:737 Wo 9175 05 05 23 -05 09.0 0.128 230.9 -9.2 A3 III 2.79 +0.13 +0.10 -0.01 049.7 05.6 049.7 05.6 1.27 c +13 +4 -7 33111 BD-05 1162 Gl 189.2 05 06 15 -04 31.2 0.054 72.8 +10.4 SB? F2 V 5.11 +0.44 -0.05 +0.26C 048.4 10.2 046. 06. r 3.42 c -10 -6 +1 33256 BD-04 1056 NN 3335 p 05 06 18 +15 24.3 0.642 166.8 M3 K 12.48 +1.50 +1.00 +1.04 033.6 20.7 048. 11. r 10.89 d G085-044 1740 LTT 11591 LFT 392 Ross 388 Gl 190 05 06 21 -18 12.9 1.376 156.6 +7. M4 K 10.30 +1.50 +1.04 +1.16 090.6 18.8 090.6 18.8 10.09 d +40 -61 -2 203 L 737-009 NN 3336 05 06 33 +48 47.1 0.454 154.9 M2 L 11.39 +1.53 +1.20 072. 34. r 10.7 f G096-021 6 LTT 11590 L 1672-14 LP 158-9 GJ 2039 05 07 58 +16 22.3 0.280 146.3 -9.6 K0 8.55 +1.12 +1.17 +0.47 059. 07. r 7.40 c +12 -21 +2 33428 BD+16 715 G085-047 Wolf 231 NN 3337 05 08 03 +18 34.5 0.682 199.4 m 14.2 * +1.24 043. 08. r 12.4 * d G085-048 1743 LTT 17752 Wo 9177 05 09 13 -44 38.1 0.200 28.8 +56.1 G8 IV/V 8.71 +0.77 +1.88C +0.82 039.9 20.5 039.9 20.5 6.7 f -37 -43 -23 33811 CD-44 1905 LTT 2195 Gl 191 05 09 41 -44 59.9 8.706 131.1 +245.5 M0 V 8.85 +1.55 +1.21 +0.79 258.3 07.6 258.3 07.6 10.91 a +19 -287 -54 33793 CD-45 1841 29 U628 Gl 192 05 09 44 +19 36.2 0.352 48. -28.6 M3.5: K 10.76 +1.54 +1.23 +0.95 070.4 05.0 070.4 05.0 10.00 b +23 +5 +29 G085-052 AC+19:1165-38 NN 3338 s 05 11 19 +19 49.7 0.332 135.5 K4 K 9.47 +1.17 +1.11 040.3 14.1 038. 07. r 7.37 d 241814 BD+19 872 G085-055 LTT 11613 comp B: K3: opt. NN 3339 05 11 21 +07 57.1 0.352 217. DA8 15.89 +0.42 -0.40 040. 04. w 13.90 c G084-041 W LTT 17767 Gl 193 05 12 04 -15 52.8 0.311 136.6 +32.6 G8 V 7.44 +0.73 +0.27 +0.36C 062.0 13.6 040. 07. r 5.45 d -7 -49 -4 34101 BD-15 978 dG6 (Wilson) NN 3340 05 12 42 -07 23.8 0.545 145.4 m 11.55 +0.82 039. 07. r 9.51 d 1747 S 3 Gl 194 A 05 12 59 +45 57.0 0.431 169.2 +22.2 SB G5 III e 0.71 +0.80 J+0.44 J+0.28 J 079.0 04.2 079.0 04.2 0.20 b -29 -16 -9 34029 BD+45 1077 ALF Aur BS 1708 ADS 3841 V(AB) = 0.08 d(m) = 0.15 source? Gl 194 B 05 12 59 +45 57.0 0.431 169.2 +33.9 G0 III 0.96* 079.0 04.2 079.0 04.2 0.45* b -40 -12 -8 Gl 195 A 05 13 42 +45 47.5 0.415 170.3 +31.2 dM2 W 10.20 +1.50 J+1.24 J+0.94 J 076.3 02.8 076.3 02.8 9.61 a -37 -13 -9 G096-029 AC+45:217-363 V(AB) = 10.16 d(m) = 3.5 Gl 195 B 05 13 42 +45 47.5 0.415 170.3 M4 : K 13.7 * 076.3 02.8 076.3 02.8 13.1 * b sep 1.8" 117d - 3.0" 143d (1935-58) NN 3341 05 13 51 -31 21.2 0.576 63.8 m 12.15 +0.99 048. 09. r 10.56 d 1748 LTT 2219 L 521-2 LP 892-26 Gl 196 05 14 17 +79 10.7 0.179 333.3 -10.7 F6 V 5.05 +0.47 -0.13 052.9 06.1 052.9 06.1 3.67 c +19 +4 -4 33564 BD+79 169 Gl 197 05 15 37 +40 03.4 0.844 141.6 +66.5 G2 IV-V 4.71 +0.63 +0.12 +0.20 069.5 07.4 069.5 07.4 3.92 c -77 -42 +5 34411 BD+39 1248 1753 LAM Aur NN 3342 A 05 16 18 +58 45.0 0.526 160.3 m 13.44 +1.62 039.0 02.1 039.0 02.1 11.40 b G191-030 1758 NN 3343 B 05 16 17 +58 44.7 0.526 160.3 m 14.03 +1.64 039.0 02.1 039.0 02.1 11.99 b G191-029 1757 Gl 198 05 16 37 -18 10.9 0.383 81.6 +40.3 G0 V 5.96 +0.57 +0.07 +0.21 063.7 15.3 049. 08. r 4.41 d -35 -40 +13 34721 BD-18 1051 dG0 (Wilson) Gl 200 A 05 16 40 -03 07.6 0.734 80.0 +86.5 K3 V 7.70 +1.04 J+0.86 J+0.47 J 079.7 05.7 079.7 05.7 7.21 b -81 -53 +6 34673 BD-03 1061 G084-045 1754 U109 ADS 3900 V(AB) = 7.67 d(m) = 4. Gl 200 B 05 16 40 -03 07.6 0.734 80.0 M2 K 11.7 * 079.7 05.7 079.7 05.7 11.2 * b 1755 sep 4.9" 46d - 2.7" 29d (1900-60) Gl 199 A 05 16 40 -21 26.7 0.14 253. +27.6 VAR K3/5 V 9.33 +1.27 J+1.23 J+0.64 J 053.6 09.8 061. 08. r 8.26 c -14 -12 -23 34751 BD-21 1131 V114 V(AB) = 9.31 d(m) = 4.2 , dM0 (Wilson) Gl 199 B 05 16 40 -21 26.7 0.14 253. 13.5 * 053.6 09.8 061. 08. r 12.4 * c sep 4.1" 73d - 5.0" 75d (1930-59) Gl 200.1 x 05 16 48 -53 43.6 0.512 154.2 k 13.19 +1.16 +0.72 +0.50 044.9 10.2 044.9 10.2 11.45 d 1751 L 233-030 NN 3344 05 16 50 -72 17.6 0.840 356.3 m 11.70 +1.40 +1.11 +0.96 052. 10. r 10.28 d 1749 LTT 2235 L 57-44 GJ 2040 05 16 57 +03 49.4 0.014 226.3 M0 V O 9.86 +1.42 060. 15. r 8.8 e 242703 BD+03 849 AG+03: 619 NN 3345 05 16 59 +55 43.1 0.278 150. m 13.01 +1.09 043. 09. r 11.18 d G191-032 NN 3346 05 17 44 -15 53.5 0.248 42.0 K3 V 8.79 +1.00 +0.73 +0.40 039. 06. r 6.75 d 34865 BD-15 1016 U111 LTT 2240 GJ 1076 s 05 19 13 +54 45.5 0.394 167.7 +49.3 K3 p K 9.46 +1.04 +0.91 +0.38 051.1 13.6 029. 04. r 6.77 d -73 -33 -14 BD+54 886 G191-037 V461 GJ 1077 05 19 38 -78 19.6 1.108 176.1 -17. M1.5 V 11.91 +1.48 +1.20 +1.08 076.8 13.0 076.8 13.0 11.34 d +59 +25 +29 205 GJ 2041 05 20 12 +00 09.8 0.031 140.9 K5 V? 8.82 +1.11 047. 07. r 7.18 d 35152 BD+00 1032 AG+00: 531 Gl 201 05 20 43 +17 16.7 0.251 89.1 +37.8 dK5 e W 7.95 +1.09 +1.00 +0.44 061.2 06.8 061.2 06.8 6.88 c -39 -15 +9 35171 BD+17 917 G085-068 V462 GJ 1078 05 20 47 +22 30.2 0.383 141. m 15.52 +1.83 +1.65 048.5 04.5 048.5 04.5 13.95 c G085-069 Gl 202 05 21 30 +17 20.3 0.245 92.8 +38.1 F8 Ve 4.99 +0.53 -0.06 065.2 09.0 065.2 09.0 4.06 d -38 -15 +7 35296 BD+17 920 GJ 1079 05 24 22 -32 32.7 0.266 110.3 K2/3 V 7.74 +0.94 +0.68 +0.35 055. 07. r 6.44 c 35854 CD-32 2337 U114 LTT 2265 Gl 203 05 25 16 +09 36.8 0.783 195.1 M3.5 K 12.48 +1.64 +1.21 +1.18 099.7 03.2 099.7 03.2 12.47 a G097-042 1761 Ross 41 GJ 1080 05 25 38 +02 56.7 1.186 198.1 M5 V 12.80 +1.60 +0.99 +1.06 052.3 02.2 052.3 02.2 11.39 a G099-010 206 or: B-V = 1.46, U-B = 0.86 Gl 204 05 25 57 -03 31.7 0.862 202.4 -56.0 K5 V 7.65 +1.10 +1.06 +0.43 071.2 06.9 071.2 06.9 6.91 c +77 -3 -22 36003 BD-03 1110 G099-012 1763 V463 NN 3347 A 05 26 03 +12 30.9 0.234 156.3 +8.6 G0 V 6.75 +0.58 +0.07 +0.29 039.5 10.2 039.5 10.2 4.7 e -2 -29 -6 35956 BD+12 801 LTT 11655 NN 3348 B 05 26 08 +12 29.7 0.235 153. m 13.98 +1.65 +1.37 039.5 10.2 039.5 10.2 12.0 e G102-004 sep 94" 315d GJ 2043 A 05 26 35 +15 32.3 0.199 207. dM2 10.63 +1.47 +1.29 +0.77 046. 06. r 8.94 c LP 412-213 BPM 85872 GJ 2043 B 05 26 34 +15 32.4 0.199 207. m 14.68 +1.28 046. 06. r 12.99 c LP 417-212 NN 3349 q 05 26 38 +32 03.2 0.700 198.4 M3 K 12.15 +1.48. +1.15 034.1 05.0 034.1 05.0 9.81 d G086-044 1765 LTT 11657 LFT 414 Ross 406 Gl 204.1 05 27 03 -60 27.3 0.189 232.2 +12.9 G5 Ve 6.99 +0.77 +0.31 +0.26 044.8 17.0 049. 08. r 5.44 d +12 -3 -19 36435 CP-60 424 Wo 9181 s 05 27 06 -75 43.7 0.331 196.5 +43.0 F8 V 7.17 +0.54 +0.01 042.1 11.9 027. 03. s 4.33 c +66 -16 -26 36767 CP-75 314 LTT 17817 Gl 204.2 05 27 23 -03 28.4 0.570 214.0 M3.5 K 12.02 +1.53 +1.32 +1.05 053.1 04.5 053.1 04.5 10.65 b G099-014 1766 Wolf 1450 Gl 205 05 28 55 -03 41.1 2.235 159.9 +8.5 M1.5 V 7.96 +1.47 +1.21 +0.85 172.3 03.1 172.3 03.1 9.14 a +23 -57 -11 36395 BD-03 1123 G099-015 30 V009 NN 3350 05 29 08 -30 13.5 0.571 142.0 m 13.0 * +1.13 050. 10. r 11.5 * d 1767 LP 892-51 NN 3351 05 29 12 +79 31.0 1.192 141.2 -92. m 18.40 045.2 01.4 045.2 01.4 16.68 a -21 -154 -8 207 LP 16-36 see Dawson & de Roberts AJ 98 p 1472 (1989) Gl 206 05 29 30 +09 47.3 0.293 233. +21.7 SB dM4 e W 11.52 +1.63 +1.07 +1.20: 070.9 02.7 070.9 02.7 10.77 a -16 -6 -24 G097-047 Ross 42 GJ 1081 05 29 38 +44 47.2 0.369 172. k-m 12.21 +1.60 +1.20 +1.16 065.9 02.7 065.9 02.7 11.30 a G096-045 Gl 207 s 05 29 53 +29 21.4 0.330 245.2 K7 K 12.07 +1.46 +1.19 054.1 15.3 054.1 15.3 10.7 e G098-008 6 AC+29:13493 NN 3352 05 30 13 +51 11.1 0.242 187. M3 L 11.07 +1.46 +1.20 +0.78 045. 07. r 9.34 d G191-045 Gl 207.1 05 31 09 +01 54.8 0.317 236. +22.0 dM2.5e 11.53 +1.57 +0.99 +1.09 066.3 08.9 066.3 08.9 10.64 c -13 -7 -28 G099-017 V 371 Ori NN 3353 A 05 31 30 +10 17.5 0.380 197. M3 K 12.32 +1.06 051. 07. r 10.86 c G097-052 LTT 11678 Ross 45 NN 3354 B 05 31 30 +10 17.4 0.380 197. M3.5 K 13.62 +1.21 051. 07. r 12.16 c LTT 11679 sep 6" 191d NN 3355 05 31 51 +28 04.2 0.347 139. K7 K 10.08 +1.27 +1.29 041. 08. r 8.14 d 244957 G098-013 LTT 11681 Ross 411 NN 3356 05 32 02 +13 51.1 0.410 197. M3.5 K 11.81 +1.59 +1.15 080.7 05.7 080.7 05.7 11.34 b G097-054 LTT 11684 Ross 46 GJ 1082 05 32 48 +41 28.2 0.1 285. DA7 14.75 +0.32 -0.54 053. 06. w 13.37 c W319 GD 69 NN 3357 05 33 30 -07 41.0 0.485 17.8 M4 K 12.80 +1.63 +1.23 079. 19. r 12.3 e 5109 LTT 2321 L 882-76 Wolf 1457 Gl 208 05 33 44 +11 17.9 0.057 195.0 +21.2 dM0 M 8.80 +1.40 +1.18 +0.65 086.1 05.6 086.1 05.6 8.48 b -19 -7 -6 245409 BD+11 878 V464 Gl 209 05 34 04 +20 42.4 0.443 191.3 -23.2 G4 IV-V 7.67 +0.66 +0.12 056.2 15.3 056.2 15.3 6.4 e +28 -24 -23 37124 BD+20 1018 G100-027 6 NN 3358 05 34 18 +51 24.9 0.560 281.3 -44.0 K2 V 7.73 +0.83 +0.44 039.7 07.0 039.7 07.0 5.72 d +48 +31 -57 37008 BD+51 1094 G191-048 1772 LTT 11689 LFT 420 NN 3359 05 35 20 +45 25.3 0.127 146.8 G5 8.08 042. 05. o 6.20 c 37199 BD+45 1150 Wo 9185 s 05 35 24 -62 50.2 0.272 346. +21. K5 V 9.33 +1.13 +1.07 +0.43 042.0 13.6 038. 06. r 7.23 d -32 -14 -19 37656 CP-62 494 LTT 2337 L 132-46 Gl 209.1 05 35 47 -28 43.1 0.057 314.4 +39.4 F5 V 5.30 +0.46 +0.10 +0.26C 045.6 10.2 049. 08. r 3.75 d -24 -24 -21 37495 CD-28 2321 NU(2) Col Wo 9187 05 36 28 -07 14.4 0.056 198.6 -1.3 SB A4 IV 4.80 +0.14 +0.11 041.3 15.3 041.3 15.3 2.9 f +5 -2 -4 37507 BD-07 1142 Gl 210 s 05 36 30 -42 59.7 0.294 21.6 +35.1 VAR G0 V 7.44 +0.60 +0.07 +0.34C 059.8 13.6 028. 05. r 4.68 d -55 -25 +4 37655 CD-43 1954 NN 3360 A q 05 36 45 -46 07.6 0.471 192.8 +11.4 G5 V 7.34 +0.78 033.2 10.2 040. 05. r 5.35 c +50 -15 -23 37706 CD-46 1936 1770 LTT 2342 NN 3361 B q 05 36 46 -46 07.6 0.522 197.4 +13.5 K5 V 9.7 * 033.2 10.2 040. 05. r 7.7 * c +54 -15 -30 1771 LTT 2343 sep 5.5" 67d Gl 211 05 37 17 +53 27.8 0.512 178.0 +1.8 K1 Ve 6.23 +0.84 +0.51 +0.29 082.7 02.5 082.7 02.5 5.82 a -14 -22 -13 37394 BD+53 934 1774 GJ 1083 AB 05 37 21 +24 46.9 0.364 163. m 14.85J +1.88 J +1.73 J 096.7 02.5 096.7 02.5 14.78J a G100-028 Riepe's double sep 0.6" 315d Gl 212 05 37 27 +53 28.3 0.495 177.7 +2.0 M1 K 9.75 +1.48 +1.20 +0.82 086.1 04.6 086.1 04.6 9.43 b -13 -21 -12 233153 BD+53 935 G191-051 1775 V465 NN 3362 05 37 27 +12 37.6 0.250 188. M3 L 11.36 +1.46 +0.85 047. 08. r 9.72 d G102-021 Wo 9188 05 39 07 +15 18.8 0.089 120.3 dM0 M 10.61 +1.46 +1.23 +0.71 047. 07. r 8.97 d V467 AC+16:777-164 Gl 213 05 39 14 +12 29.3 2.571 128.4 +105.6 M4 K 11.53 +1.62 +1.20 +1.27 166.5 03.9 166.5 03.9 12.64 a -89 -92 +9 G102-022 31 AC+12:1800-213 GJ 2045 05 39 46 -05 30.1 0.971 352.3 m 15.28 +1.86 078.1 02.7 078.1 02.7 14.74 a 1777 LP 658-44 Gl 215 05 41 05 +62 13.7 0.838 166.3 -19.6 K7 K 9.02 +1.40 +1.23 +0.63 071.6 02.8 071.6 02.8 8.29 a -13 -54 -18 BD+62 780 G249-018 1782 V466 Wo 9189 05 41 08 -80 30.5 1.100 016.9 +9.4 G1 V 5.65 +0.60 +0.11 +0.19 042.9 17.0 062. 10. r 4.61 d -73 -43 +2 39091 CP-80 161 208 LFT 429 NN 3363 05 41 35 +32 22.3 0.085 168.8 G5 8.15 048. 05. o 6.56 c 38114 BD+32 1077 NN 3364 s 05 42 00 +69 44.0 0.915 125.9 m 16.47 +1.69 042.4 04.4 042.4 04.4 14.61 c 1788 LP 33-436 Gl 216 A 05 42 23 -22 27.8 0.476 218.5 -9.7 F6 V 3.58 +0.47 +0.01 +0.16 124.9 06.9 124.9 06.9 4.06 b +17 +5 -10 38393 BD-22 1211 GAM Lep Gl 216 B 05 42 21 -22 26.2 0.470 220.7 -8.4 K2 V 6.13 +0.94 +0.74 +0.35 124.9 06.9 124.9 06.9 6.61 b +16 +5 -11 38392 BD-22 1210 Gl 217 05 42 35 +37 16.4 0.709 136.8 -26.9 K1 V 7.36 +0.83 +0.51 056.7 05.1 056.7 05.1 6.13 b +20 -61 +10 38230 BD+37 1312 G096-051 1783 NN 3365 05 43 02 +44 06.4 0.683 239.6 M4 K 12.79 +1.55 +1.25 039.2 10.2 039.2 10.2 10.8 e G096-052 1784 LTT 11721 Wolf 237 NN 3366 05 44 39 -05 12.9 0.804 135.9 m 14.54 +1.78 062.5 03.4 062.5 03.4 13.52 b 1785 LP 658-33 Gl 217.1 05 44 41 -14 50.4 0.022 264.4 +16.3 A3 V 3.55 +0.10 +0.07 -0.05 048.7 05.9 048.7 05.9 1.99 c -12 -9 -8 38678 BD-14 1232 ZET Lep NN 3367 05 44 44 -00 01.8 M0 s 10.99 +1.45 +1.15 +0.74 042. 07. r 9.11 d Steph 578 Gl 217.2 s 05 45 06 -70 10.8 1.263 345.6 +13.8 K0 V 8.08 +0.76 +0.27 +0.28 047.7 19.3 032. 05. r 5.61 d -177 -13 -60 39194 CP-70 447 210 NN 3368 05 45 41 +07 44.9 0.276 165. m 14.19 +1.25 045. 08. r 12.46 d G099-034 LTT 17868 Gl 218 05 45 53 -36 20.6 0.692 096.6 +56. M3 K 10.73 +1.48 +1.11 +0.90 095.5 08.2 095.5 08.2 10.63 b -19 -63 +2 CD-36 2458 1787 NN 3369 p 05 45 57 -11 09.3 0.425 329. M0.5 K 11.00 +1.42 +0.72 036.3 10.2 042. 08. r 9.12 d LTT 2376 L 810-58 GJ 1084 p 05 46 00 -48 32.2 0.32 176. M0 V U 9.74 +1.38 +1.22 +0.62 021.6 18.8 057. 11. r 8.52 d CD-48 1982 U126 LTT 2379 GJ 1085 05 46 06 -04 06.4 0.232 165.6 +31.9 G2 V 5.97 +0.64 +0.10 +0.22 059. 09. r 4.82 d -17 -30 -13 38858 BD-04 1244 LTT 2380 BS2007 Gl 219 05 46 06 -51 05.0 0.081 4.7 +20. A5 V 3.85 +0.17 +0.09 +0.09C 059.8 10.7 059.8 10.7 2.73 d -10 -16 -9 39060 CD-51 1620 BET Pic GJ 1086 05 48 46 -00 11.3 0.213 22. DQP8 14.55 +0.48 -0.45 090.5 02.8 090.5 02.8 14.33 a G099-037 W248 LTT 17876 Gl 220 05 50 10 +24 15.4 0.610 169.1 M1.5 K 10.81 +1.48 +1.22 +0.89 052.2 04.2 052.2 04.2 9.40 b G100-044 1794 AC+24:147-263 Ross 59 LFT 437 Gl 221 05 50 34 -06 00.0 0.333 180. +22.2 M0 V U 9.70 +1.33 +1.25 +0.62 050.8 11.6 050.8 11.6 8.23 d +0 -33 -20 BD-06 1339 V010 Gl 222 AB 05 51 25 +20 16.1 0.210 244.0 -13.4 SB G0 V 4.40 J+0.59 J+0.06 J+0.20 J 103.1 02.8 103.1 02.8 4.47 Ja +14 +3 -9 39587 BD+20 1162 BS 2047 CHI(1) Ori sep 0.6" d(m) = ? comp see AJ 72,910 NN 3370 05 51 34 +48 59.9 0.004 146.7 K2 7.83 +1.07 +0.74 061. 09. r 6.76 d 40676 BD+48 1318 Gl 223 05 51 52 +02 08.6 0.644 173.7 -41.8 K3 V U 8.83 +1.02 +0.90 +0.38 066.7 11.9 039. 06. r 6.79 d +73 -47 -21 39715 BD+02 1085 G099-043 1798 U128 Gl 223.1 s 05 52 11 -09 24.3 0.452 18. dM0 M 10.71 +1.17 +1.04 +0.48 051.0 10.2 023. 03. r 7.52 c BD-09 1261 V468 Gl 223.2 05 52 39 -04 08.8 2.377 166.6 DZ9 14.45 +1.05 +0.77 +0.29 154.8 02.9 154.8 02.9 15.40 a G099-044 32 W045 LP 658-002 Gl 224 05 53 12 +13 55.5 0.608 143.4 +0.3 G5 IV 6.61 +0.65 +0.13 +0.22 047.4 12.0 047.4 12.0 5.0 e +14 -59 +7 39881 BD+13 1036 1803 Gl 224.1 05 53 43 -63 06.3 0.554 13.8 +25.1 K1 III/IV 4.65 +1.05 +0.96 +0.36 050.6 14.8 050.6 14.8 3.2 e -49 -31 -1 40409 CP-63 498 1796 GJ 1087 05 53 47 +05 22.2 1.056 207.0 DAP9 14.10 +0.60 -0.14 +0.25 125.1 04.1 125.1 04.1 14.59 a G099-047 212 W290 Gl 225 05 54 08 -14 10.5 0.146 340.4 -1.4 F1 III 3.72 +0.33 +0.01 +0.20C 073.4 16.5 073.4 16.5 3.05 d -5 +8 +1 40136 BD-14 1286 ETA Lep NN 3371 A 05 55 14 +58 35.6 0.253 184. M1 L 10.25 +1.51 +1.25 +0.83 076. 09. r 9.65 c G192-011 NN 3372 B 05 55 32 +58 34.3 0.253 184. m 13.56 +1.31 076. 09. r 12.96 c G192-012 sep 161" 119d NN 3373 A 05 55 27 +68 09.7 1.174 161.4 k-m 12.90 +1.56 049.5 01.7 049.5 01.7 11.37 a G249-028 214 LP 57-41 LDS 1201 NN 3374 B 05 55 24 +68 08.8 1.174 161.4 m 13.31 +1.59 049.5 01.7 049.5 01.7 11.78 a G249-027 213 LP 57-40 sep 56" 193d (NLTT) NN 3375 05 55 52 +44 56.7 0.056 269.7 -19.4 SB A2 IV 1.90v +0.03 +0.05 044.3 05.5 044.3 05.5 0.13v c +18 -1 -9 40183 BD+44 1328 NN 3376 AB 05 55 53 -04 39.1 0.227 163.5 G0 6.99 040. 05. o 5.00 c 40397 BD- 4 1310 LTT 2421 ADS 4557 sep 4.1" 359d, d(m) = 6.8 , Mv = 5.01 Olsen NN 3377 C 05 55 49 -04 38.1 0.230 159. k-m 16.3 P 040. 05. o 14.3 P c LP 659-4 sep(AB-C) 89" 312d (NLTT) NN 3378 05 56 43 +59 36.5 0.831 190.1 m 11.71 +1.60 +1.21 132.2 02.9 132.2 02.9 12.32 a G192-013 1805 LTT 11755 L 1813-21 LP 86-137 NN 3379 05 57 26 +02 42.3 0.241 108. M4 L 11.33 +1.68 +1.10 186.3 06.2 186.3 06.2 12.68 a G099-049 LTT 17897 Gl 225.1 x 05 58 12 -37 03.6 0.286 49.5 +40.0 G5 V 8.60 +0.63 +0.05 +0.34C 046.9 10.2 046.9 10.2 6.96 d -32 -37 +6 40865 CD-37 2534 Gl 225.2A 05 58 28 -31 02.2 0.560 314.4 +101.7 K5 V 8.28 +1.14 J+0.94 J+0.52 J 050.7 10.0 066. 08. r 7.38 c -77 -52 -58 40887 CD-31 2902 1804 U131 V(ABCD) = 7.85 d(m) = 0.78 Gl 225.2B 05 58 28 -31 02.2 0.560 314.4 9.1 * 050.7 10.0 066. 08. r 8.2 * c AB: a = 0.94" P = 72.0 yr Gl 225.2C 05 58 28 -31 02.2 0.560 314.4 +105.0 K5 V 8.3 * 050.7 10.0 066. 08. r 7.4 * c -78 -55 -59 a(AB-C) = 3.95" 390.6 yr; D(12.8m) opt. sep(A-D) 11.9" 191d (1960) NN 3380 05 58 36 +49 52.4 0.801 174.5 m 14.47 +1.87 +1.45 107.8 03.0 107.8 03.0 14.63 a G192-015 1809 Gl 226 05 59 42 +82 07.9 1.337 180.7 -21.0 M2.5 K 10.50 +1.51 +1.19 +1.01 105.0 02.2 105.0 02.2 10.61 a -36 -47 -25 G222-011 215 AC+82:1111 NN 3381 05 59 43 +47 48.8 0.595 187.6 M3.5 K 13.94 +1.23 045. 08. r 12.21 d G101-016 1813 LTT 11766 LFT 446 Wolf 261 NN 3382 06 00 14 -20 20.1 0.579 356.4 m 13.25 +1.16 049. 10. r 11.70 d 1807 LP 779-10 Gl 226.1 s 06 00 47 +26 09.4 0.642 149.4 M3.5 K 13.67 +1.65 +1.08 047.9 08.5 047.9 08.5 12.07 d G098-038 1814 Ross 60 NN 3383 06 01 25 +18 41.9 0.012 173.2 G5 7.98 051. 06. o 6.52 c 41190 BD+18 1074 Gl 226.2 06 02 37 +67 59.1 0.09 193. +1.6 dK8 M 9.75 +1.25 +1.20 +0.50 050.9 10.2 040. 05. r 7.76 c -8 -5 -5 V234 AC+67:1894 Gl 226.3 06 02 48 +35 23.8 0.314 202.2 -14.8 G0 V 6.11 +0.60 +0.06 046.6 15.3 049. 08. r 4.56 d +11 -20 -25 41330 BD+35 1334 Wo 9200 06 03 02 -45 02.1 0.260 339.7 +25.8 G0 IV-V 6.35 +0.52 +0.00 040.2 10.3 040.2 10.3 4.4 e -35 -11 -15 41700 CD-45 2300 LTT 2450 cmp with CD-45:2302 Wo 9201 06 03 15 -55 18.2 0.760 65.7 +6. k 12.15 +1.46 +1.11 +0.93 040.6 10.3 040. 08. r 10.16 d -31 -43 +73 1815 LTT 2452 Gl 227 06 03 49 +15 33.0 0.164 227.8 -11.7 dK0 e W 6.76 +0.81 +0.42 +0.26 065.3 10.2 065.3 10.2 5.83 d +12 +0 -11 41593 BD+15 1065 NN 3384 06 03 54 +33 33.3 0.430 161. M3 K 12.44 +1.45 +0.97 041. 10. r 10.5 e G098-044 LTT 11782 Ross 70 Wo 9202 s 06 05 25 -59 31.5 0.793 196.0 +25.4 K0 V 8.46 +0.85 +0.45 +0.29 040.8 07.8 031. 05. r 5.92 d +113 -4 -52 42286 CP-59 584 1818 LTT 2459 LFT 453 CD-59:1224 Wo 9203 s 06 05 57 +26 34.0 0.570 255.0 M3 K 13.34 +1.50 +0.91 040.8 13.6 024. 06. r 10.2 e G098-046 1824 LTT 11788 LFT 454 Ross 62 NN 3385 p 06 07 40 +25 57.1 0.568 161.8 M1.5 K 11.55 +1.46 +1.20 +0.89 034.7 05.9 034.7 05.9 9.25 d G098-049 1828 LTT 11796 Wolf 1058 Gl 228 A 06 08 09 +10 20.6 0.970 175.8 +55.5 dM2.5 J W 10.58 +1.46 J+1.08 J+1.03 J 100.8 04.6 100.8 04.6 10.60 b -37 -57 -23 BD+10 1032 G102-053 1830 V236 V(AB) = 10.41 d(m) = 1.9 Gl 228 B 06 08 09 +10 20.6 0.970 175.8 12.5 * 100.8 04.6 100.8 04.6 12.5 * b sep 0.9" to 2.4" (1945-61) Gl 229 06 08 28 -21 50.6 0.737 190.2 +5.2 M1 Ve 8.14 +1.50 +1.23 +0.82 174.9 06.7 174.9 06.7 9.35 a +12 -12 -12 42581 BD-21 1377 1827 V471 NN 3386 p 06 08 48 +63 24.7 0.248 137. +17.9 dK8 M 9.69 +1.21 +1.18 +0.50: 034.2 18.4 040. 06. r 7.70 d -25 -18 +16 BD+63 0639 G249-041 V235 NN 3387 06 09 18 +06 47.9 0.319 142.3 -52.4 G4 V 6.87 +0.63 +0.13 042.7 19.9 039. 06. r 4.83 d +62 -16 +11 42618 BD+06 1155 G102-057 LTT 11802 GJ 1088 06 09 25 -43 24.5 0.740 009.5 +28. M3.5 K 12.32 +1.59 +1.26 +1.16 075. 19. r 11.7 e -51 -18 +5 1831 Wo 9204 s 06 09 55 -41 33.7 0.292 164.6 +15.0 K2 V 9.29 +0.95 +0.68 +0.35 043.7 13.6 027. 04. r 6.45 d +43 -31 -6 42931 CD-41 2266 U138 LTT 2482 NN 3388 06 10 06 +51 41.1 0.370 258. m 12.86 +1.14 055. 11. r 11.56 d G192-022 Wo 9205 06 10 18 +70 48.2 0.444 180.6 +25.0 dG7 7.43 +0.77 +0.37 042.7 11.9 044. 06. r 5.65 c -50 -19 -5 42250 BD+70 395 G251-005 LTT 11803 Gl 230 06 10 26 +10 38.7 0.302 164.2 +6.0 SB? G2 V 6.45 +0.67 +0.15 +0.22 056.9 06.1 056.9 06.1 5.23 c +3 -25 -6 42807 BD+10 1050 Wo 9206 s 06 10 51 -65 10.8 0.764 167.1 k 11.35 +1.46 +0.76 042.7 14.5 037. 06. r 9.19 d 1832 LTT 2486 LFT 461 NN 3389 06 11 41 -23 50.9 0.125 336.0 +22.4 G5 V 6.38 +0.72 061. 08. r 5.31 c -21 -10 -7 43162 CD-23 3577 BS 2225 Gl 231 06 11 44 -74 44.2 0.247 149.6 +34.9 G5 V 5.08 +0.72 +0.33 +0.23 114.1 10.2 114.1 10.2 5.37 b +17 -30 -12 43834 CP-74 374 ALF Men NN 3390 q 06 11 54 +19 10.5 0.217 208.4 +35.7 F6 V 5.20 +0.44 +0.00 037.7 11.9 046. 06. r 3.51 c -33 -19 -18 43042 BD+19 1270 LTT 11815 ADS 4842 optical Wo 9207 06 13 38 +12 17.3 0.202 23.3 +8.7 F5 IV-V 5.04 +0.42 -0.02 043.4 10.2 043.4 10.2 3.2 e -13 +10 +17 43386 BD+12 1084 LTT 11823 Gl 231.1A 06 14 37 +05 07.0 0.261 306.7 +9.6 F9 V 5.70 +0.60 +0.10 +0.22 050.4 09.6 061. 09. r 4.63 d -16 +13 -9 43587 BD+05 1168 Gl 231.1B 06 14 32 +05 08.1 0.290 302. +8.9 m+ 13.42 +1.41 +1.10 +1.24 050.4 09.6 061. 09. r 12.35 d -15 +15 -12 G106-036 Wo 9209 A 06 15 37 -59 11.4 0.333 189.6 -3.0 G3 V 6.43 +0.59 +0.14 +0.19 042.0 13.6 044. 07. r 4.65 d +34 +7 -8 44120 CP-59 619 LTT 2510 CD-59:1274 Wo 9209 B 06 15 37 -59 11.4 0.333 189.6 +40. DB4 14.09 -0.09 -0.95 042.0 13.6 044. 07. r 12.31 d +34 +8 -7 W LTT 2511 L 182-61 BPM 18164 sep 41" 302d (NLTT) Gl 231.3 06 16 55 -06 37.6 0.669 187.0 M4 K 13.06 +1.70 +1.11 067.6 13.6 067.6 13.6 12.21 d 1836 Ross 417 NN 3391 06 17 34 +44 16.2 0.305 145. m 12.27 +0.96 042. 08. r 10.39 d G101-035 NN 3392 06 18 05 +06 46.7 0.515 093.3 DA9 16.37 +0.55 -0.17 044.8 04.2 044.8 04.2 14.63 c G105-030 1838 W GJ 2049 p 06 19 50 -22 42.1 0.671 292.6 M1.5 K 10.76 +1.44 +1.23 +0.98 027.8 23.9 076. 17. r 10.16 d CD-22 3005 1840 LTT 2531 Gl 232 06 21 37 +23 28.1 0.763 132.4 M4.5 K 13.06 +1.76 +1.30 120.0 01.9 120.0 01.9 13.46 a G104-037 1846 Ross 64 NN 3393 06 21 39 +56 12.5 0.530 166.3 m 14.55 +1.76 +1.23 044.9 04.7 044.9 04.7 12.81 c G192-026 1848 NN 3394 06 22 47 -28 45.0 0.204 233.6 -4.4 G0 V 6.39 +0.62 045. 06. r 4.66 c +10 +6 -18 45184 CD-28 2981 BS 2318 LTT 2547 Gl 233 AB 06 23 14 +18 47.3 0.210 214.6 -8.4 SB K2 V e 6.76 +0.94 +0.63 066.6 04.2 066.6 04.2 5.88 b +9 -5 -14 45088 BD+18 1214 ADS 5054 sep 1.3" 162d d(m) = 6.8 Wo 9212 A 06 25 10 -25 49.3 0.290 220.0 +35.8 F9 V 6.07 +0.53 +0.05 043.7 15.3 035. 04. s 3.79 c +0 -30 -44 45588 CD-25 3237 LTT 2558 Wo 9212 B s 06 25 10 -25 49.3 0.290 220.0 K7 K 11.57 +1.04 +0.14 043.7 15.3 035. 04. s 9.29 c LTT 2559 Gl 234 A 06 26 51 -02 46.2 0.997 134.8 +16.7 M4.5 J K 11.13 +1.71 J+1.20 J+1.37 J 242.1 01.7 242.1 01.7 13.05 a -4 -25 +4 G106-049 1849 Ross 614 V(AB) = 10.10 d(m) = 3.5 ? Gl 234 B 06 26 51 -02 46.2 0.997 134.8 14.6 * 242.1 01.7 242.1 01.7 16.5 * a 1850 V 577 Mon a = 0.932" 16.60 yr NN 3395 06 27 08 +50 05.0 M0 s 11.09 +1.50 +1.14 +0.84 052. 09. r 9.67 d Steph 598 NN 3396 06 28 18 +41 32.1 0.196 183. m 14.83 +1.53 090. 15. r 14.60 d LP 205-49 Gl 236 s 06 30 07 -26 59.5 0.461 116. +113. M0 K 11.41 +1.37 +0.89C 067.3 08.5 067.3 08.5 10.55 c -44 -108 -11 L 597-031 Gl 237 06 30 22 -43 29.8 0.264 262. +27. g-k 10.59 +1.48 +1.23 +0.73 058.3 15.3 050. 08. r 9.08 d -9 -14 -33 CP-43 912 NN 3397 06 32 45 -69 55.2 0.701 17.4 m 13.0 * +1.08 042. 09. r 11.1 * d 1852 LTT 2392 L 59-3 Gl 238 06 33 07 -58 29.9 0.885 332.8 -16. m 11.62 +1.51 +1.16 +1.02 071.0 11.9 071.0 11.9 10.88 d -56 +23 -7 1855 L 182-044 NN 3398 06 33 20 +11 40.1 0.901 190.2 k-m 14.22 +1.65 +1.30 055.1 03.6 055.1 03.6 12.93 b G105-046 1857 USNO 705 Gl 239 06 34 19 +17 36.2 0.885 293.4 -56.1 dM1 W 9.63 +1.49 +1.21 +0.73 099.1 03.1 099.1 03.1 9.61 a +43 +46 -32 260655 BD+17 1320 G104-049 1858 Gl 239.1 06 34 30 -19 12.7 0.083 139.6 +4.1 K1 III 3.96 +1.05 +1.01 054.7 06.5 054.7 06.5 2.65 c +2 -8 +1 47205 BD-19 1502 NU Cma Gl 240 06 35 55 -49 59.7 0.22 90. +16. K0 C 9.62 +1.46 +1.22 +0.76 069.7 10.2 069.7 10.2 8.84 d +0 -21 +7 CP-49 990 NN 3399 06 36 56 +28 38.2 0.250 174. k-m 11.93 +1.50 +1.19 046. 22. r 10.2 f G103-049 LTT 11891 L 1389-16 LP 307-8 NN 3400 A 06 37 28 -61 29.3 0.072 330.0 +32.3 G0 V 6.34 +0.62 J+0.12 J 046. 07. r 4.65 d -6 -28 -16 48189 CP-61 688 BS 2468 V(AB) = 6.18 d(m) = 2.0 NN 3401 B 06 37 28 -61 29.3 0.072 330.0 8.3 * 046. 07. r 6.6 * d sep = 2.1" Gl 240.1 06 37 44 +79 37.4 0.613 187.7 +15.7 SB? F8 V 5.45 +0.50 -0.02 047.5 06.0 047.5 06.0 3.83 c -57 -26 -8 46588 BD+79 212 1868 Gl 241 06 38 12 +24 00.6 0.338 143.5 -44.6 dK6 W 8.13 +1.02 +0.92 +0.38 057.0 06.4 057.0 06.4 6.91 c +49 -19 -2 47752 BD+24 1357 G109-020 V478 NN 3402 06 38 36 +15 48.9 0.363 175. M3 K 13.77 +1.20 040. 08. r 11.78 d G109-023 LTT 11899 Wolf 289 NN 3403 06 38 48 -55 34.0 0.38 269. K7 V U 9.94 +1.31 +1.18 +0.52 040. 07. r 7.95 d CD-55 1514 U145 CP-55:1035 LTT 2621 Wo 9216 p 06 38 53 +71 56.8 0.555 193.1 -12. K7 K 10.95 +1.48 +1.21 +0.80 037.8 09.4 037.8 09.4 8.8 e -39 -50 -31 G251-016 1865 V238 LTT 11898 LFT 480 AC+72:3338 GJ 2050 NN 3404 A 06 39 33 +03 37.9 0.287 173. m 12.06 +1.11 064. 09. r 11.09 d G108-021 NN 3405 B 06 39 36 +03 38.6 0.287 173. m 13.33 +1.22 064. 09. r 12.36 d G108-022 sep 51" 39d NN 3406 A 06 39 54 +51 12.1 0.922 173.6 M3.5 J K 12.44 +1.59 J+1.25 J 052.1 4.3 052.1 4.3 11.02 b G192-039 1864 LP 121-41 L 1750-12 USNO 706 V(AB) = 12.34 d(m) = 2.5 NN 3407 B 06 39 54 +51 12.1 0.922 173.6 14.9 * 052.1 4.3 052.1 4.3 13.5 * b G192-039 sep 1.8" Gl 242 06 42 29 +12 57.1 0.225 210.8 +30.0 VAR F5 III 3.36 +0.43 +0.06 050.2 11.2 050.2 11.2 1.86 d -25 -22 -16 48737 BD+13 1396 XI Gem BS 2484 NN 3408 A s 06 42 51 +32 36.5 0.462 280.1 -34.5 K3 V 8.77: +0.96 +0.70 047.1 07.5 047.1 07.5 7.14: d +24 +27 -45 263175 BD+32 1398 G087-003 1866 LTT 11914 NN 3409 B s 06 42 53 +32 36.4 0.528 280.5 M0.5 K 12.17 +1.53 +1.23 047.1 07.5 047.1 07.5 10.54 d G087-004 1867 LTT 11915 Ross 419 sep 31" 101d Gl 243 06 42 52 -27 17.6 0.288 357.9 -12.1 G2 V 6.45 +0.54 -0.03 +0.32C 060.5 13.6 040. 06. r 4.46 d -22 +25 +15 48938 CD-27 3248 Gl 244 A 06 42 57 -16 38.8 1.328 204.3 -9.4 VAR A1 V -1.43 +0.00 -0.04 -0.11 380.4 02.9 380.4 02.9 1.47 a +15 +1 -11 48915 BD-16 1591 219 ALF CMa ADS 5423 LTT 2638 Gl 244 B 06 42 57 -16 38.8 1.328 204.3 DA2 8.44 -0.03? -1.04 380.4 02.9 380.4 02.9 11.34 a W049 a = 7.500" P = 50.090 yr Gl 245 06 43 08 +43 37.8 0.164 359.0 -23.9 G0 V 5.24 +0.56 +0.05 066.2 08.5 066.2 08.5 4.34 c +25 +8 -3 48682 BD+43 1595 PSI(5) Aur Gl 245.1 s 06 43 31 -31 44.1 0.387 213.4 +32.0 F6 V 5.92 +0.49 -0.04 +0.28C 050.4 09.3 041. 04. s 3.98 c +11 -30 -44 49095 CD-31 3640 dF6 (Wil) Gl 246 06 44 15 +37 35.1 0.968 193.3 +80.0 DA2 12.06 -0.08 -0.92 062.6 03.1 062.6 03.1 11.04 b -47 -58 -32 G087-007 1870 W050 L 1534-001 NN 3410 06 44 47 +02 34.4 0.436 275. DA8 15.68 +0.32 -0.53 054.6 05.5 054.6 05.5 14.37 c G108-026 W484 Gl 247 06 45 27 +60 23.2 0.476 29.1 -52.9 dM0 p M 8.58 +1.22 +1.17 +0.48 050.6 02.9 050.6 02.9 7.10 b +69 +4 +8 48948 BD+60 1003 G250-022 6 V479 pi(t) Heintz AJ 94 GJ 1091 s 06 45 27 +37 12.0 0.14 263. 13.34 +1.35 +0.99 044.3 05.4 044.3 05.4 11.57 c "near G87-8" GJ 1092 06 45 41 +37 11.7 1.618 172.3 m 13.76 +1.66 +0.94 +1.25 075.8 03.9 075.8 03.9 13.16 b G087-008 220 NN 3411 06 46 16 +35 12.1 0.315 154. K5 s 10.17 +1.32 +1.27 +0.57 040. 06. r 8.18 d G087-009 LP 254-40 Gl 248 06 47 41 -61 53.2 0.276 345.1 +20.6 A7 IV 3.27 +0.21 +0.13 +0.14C 050.9 10.2 050.9 10.2 1.80 d -25 -19 -9 50241 CP-61 720 ALF Pic Gl 249 06 47 49 +47 26.2 0.736 198.2 +22.2 dK6 W 8.99 +1.24 +1.16 +0.50 050.4 11.1 056. 10. r 7.73 d -43 -42 -28 49601 BD+47 1355 G107-027 1874 V239 Gl 249.1 06 48 30 -46 33.6 0.370 359.0 +20.1 F5 III 5.13 +0.45 -0.03 +0.26 048.5 12.3 048.5 12.3 3.6 e -39 -14 +4 50223 CD-46 2703 NN 3412 AB 06 49 29 +60 56.8 1.147 152.3 M3.5 K 11.06 +1.54 J +1.39CJ 091.5 03.6 091.5 03.6 10.87 a G250-029 221 LTT 11937 LP 87-237 L 1815-5 Hei 334 d(m) = 0.5 V(AB) = 10.52 NN 3413 06 49 36 +18 20.0 0.208 40. m 13.18 +1.17 053. 10. r 11.80 d LTT 11938 L 1246-11 LP 421-7 Gl 250 A 06 49 52 -05 06.7 0.544 269.8 -9.6 K3 V U 6.59 +1.05 +0.95 +0.39 108.9 05.4 108.9 05.4 6.78 b +2 +15 -21 50281 BD-05 1844 1875 U148 Gl 250 B 06 49 52 -05 07.7 0.541 270.0 -6.9 M2 K 10.09 +1.50 +1.26 +0.98 108.9 05.4 108.9 05.4 10.28 b -1 +13 -21 1876 Wo 9219 06 51 34 -28 28.2 0.519 147.5 +72.1 G5 IV 6.03 +0.72 +0.27 +0.24 041.4 08.4 041.4 08.4 4.12 d +13 -92 -7 50806 CD-28 3554 1878 LFT 496 Gl 251 06 51 35 +33 20.3 0.851 242.3 +22.9 dM4 W 10.01 +1.57 +1.21 +1.11 173.6 02.2 173.6 02.2 11.21 a -28 -3 -16 G087-012 1879 V482 AC+33:25644 Wo 9220 A 06 51 49 +13 14.6 0.100 139.8 +14.8 SB A9 V p 4.74 +0.31 +0.03 040.7 08.4 039. 04. s 2.70 c -9 -16 +5 50635 BD+13 1462 BS 2564 ADS 5559 Wo 9220 B 06 51 49 +13 14.6 0.100 139.8 +22.3 G6 V 7.68 +0.72 +0.20 040.7 08.4 039. 04. s 5.64 c -16 -19 +5 sep 7.0" d(m) = 2.9 Gl 251.1 s 06 52 10 +12 13.7 0.333 190. +16.4 dM1.5 W 10.55 +1.24 +1.23 +0.50 044.0 20.7 029. 05. r 7.86 d -2 -48 -31 BD+12 1343 G110-021 V012 Gl 252 06 52 14 +25 26.4 0.049 301.8 -15.1 G0 V 5.74 +0.57 +0.00 +0.22 052.7 11.5 059. 08. r 4.59 c +13 +6 -5 50692 BD+25 1496 NN 3414 06 52 18 +55 02.9 0.706 199.2 k-m 11.8 * 058.6 05.6 058.6 05.6 10.6 * c G192-058 1882 NN 3415 A p 06 52 59 +40 08.8 0.466 164.4 +50.9 K5 V 9.12 +1.12 +1.05 +0.43 038.1 03.0 038.1 03.0 7.02 b -54 -55 +10 BD+40 1758 G107-037 V240A LTT 11946 NN 3416 B p 06 52 59 +40 08.8 0.466 164.4 +51.2 M1 K 11.10 +1.43 +0.81 038.1 03.0 038.1 03.0 9.00 b -54 -54 +11 G107-038 V240B LTT 11947 NN 3417 06 53 17 +62 23.7 0.516 139.9 m 13.65 +1.47 129. 20. r 14.20 d G250-031 1885 Gl 253 s 06 53 51 -55 11.5 0.182 187.6 +40.1 G7 V 8.17 +0.78 +0.37 +0.24 069.6 08.5d 7.38 c +8 -36 -20 51608 CP-55 1095 Gl 254 06 53 52 +30 49.6 0.230 157.6 -7.8 K7 K 9.72 +1.36 +1.23 +0.62 072.8 20.5 056. 11. r 8.46 d +9 -19 -2 266611 BD+30 1367a G087-016 V013 Wo 9222 s 06 54 41 -74 39.8 0.197 341.4 -0.9 F8 V +A/F 7.65 +0.53 +0.05 041.0 13.6 020. 03. r 4.16 d -45 -9 -6 52449 CP-74 421 composite spectra (Michigan) NN 3418 06 55 22 +14 17.3 0.009 219.7 G5 8.28 048. 05. o 6.69 c 51534 BD+14 512 Gl 255 A 06 55 30 -35 26.4 0.040 296.9 +10.1 F8 IV-V 6.91 +0.46 J-0.06 J+0.26CJ 068.4 13.6 068.4 13.6 6.09 d -6 -8 -4 51825 CD-35 3233 BS 2612 V(AB) = 6.23 d(m) = 0.16 Gl 255 B 06 55 30 -35 26.4 0.040 296.9 F8 IV-V 7.1 * 068.4 13.6 068.4 13.6 6.3 * d a = 0.218" P = 16.74 yr Gl 256 p 06 56 07 -12 55.3 0.119 134.4 -7.7 K4 V 9.15 +1.16 +1.06 +0.50 036.8 10.7 047. 07. r 7.51 d +13 -3 +4 51849 BD-12 1724 V485 Gl 257 A 06 56 21 -44 13.3 1.134 265.0 M3 K 11.5 +1.66 J+1.21 J+1.12 J 116.9 08.1 116.9 08.1 11.8 b CD-44 3045 222 V(AB) = 10.84 d(m) = 0.2 Gl 257 B 06 56 21 -44 13.3 1.134 265.0 M3 K 11.7 * 116.9 08.1 116.9 08.1 12.0 * b GJ 1093 06 56 29 +19 25.8 1.225 137.3 m 14.83 +1.93 +1.60 128.9 03.5 128.9 03.5 15.38 a G109-035 223 NN 3419 06 56 53 -10 11.2 0.729 181.9 m 13.5 : +1.20 051. 10. r 12.0 : d 1887 LTT 2704 L 814-1 LP 721-2 NN 3420 06 57 36 +32 02.5 0.684 150.6 DC9 16.57 +0.96 +0.42 053.6 00.9 053.6 00.9 15.22 a 1889 W485 LP 308-010 Gl 257.1 q 06 57 49 +48 27.4 0.700 127.3 -22.8 K3 V 8.00 +0.99 +0.87 033.2 07.9 054. 08. r 6.66 d +23 -56 +25 51866 BD+48 1469 G107-042 1890 Gl 258 06 59 07 +68 21.7 0.341 82. M3.5 K 11.96 +1.53 +1.08 056.5 13.6 056.5 13.6 10.7 e G250-033 AC+68:2911 Gl 259 06 59 11 -25 52.6 0.207 79.7 +12.6 K0 Ve 6.71 +0.89 +0.62 +0.30 067.4 13.6 074. 11. r 6.06 d -5 -14 +11 52698 CD-25 3913 Gl 260 06 59 25 -61 16.1 0.300 323.8 +21.3 K0 IV-V 6.82 +0.80 +0.43 +0.39C 061.5 13.6 063. 11. r 5.82 d -21 -17 -15 53143 CP-61 754 Gl 261 06 59 27 -06 22.1 0.898 185.0 DA 15.27 +0.88 079.0 24.6 079.0 24.6 14.8 e 1892 W L 886-6 NN 3421 06 59 54 +52 47.5 1.166 141.7 M4.5 K 13.30 +1.84 +1.43 109.1 02.8 109.1 02.8 13.49 a G193-027 224 LTT 11965 LFT 506 LP 122-59 L 1750-5 NN 3422 06 59 56 -67 50.9 0.240 351.0 +38.6 K3 III 5.17 +1.40 +1.65 +0.52 041.1 13.1 041.1 13.1 3.2 e -22 -40 -14 53501 CP-67 686 LTT 2717 CD-67: 492 NN 3423 07 00 05 +34 46.2 0.183 331. m 13.17 +1.26 075. 13. r 12.55 d LP 255-11 GJ 1094 07 00 17 -06 43.3 0.358 213.9 K5 V 8.38 +1.08 +0.96 +0.40 063.3 03.3 063.3 03.3 7.39 b 52919 BD-06 1902 U152 LTT 2722 Gl 262 07 00 20 +29 25.4 0.841 169.1 +25.4 G4 V 5.94 +0.60 +0.04 +0.21 058.6 11.9 055. 09. r 4.64 d -19 -74 -8 52711 BD+29 1441 1893 NN 3424 07 01 46 +25 04.6 0.328 215. M1 K 11.62 +1.48 +1.16 040. 09. r 9.63 d G088-004 LTT 11970 Ross 874 Gl 263 07 01 56 -10 25.3 0.806 188.5 -87. M3.5 K 11.29 +1.52 +1.10 +0.97 061.5 05.4 061.5 05.4 10.23 b +98 +25 -34 1895 Ross 54 Gl 264 07 02 18 -43 29.5 0.404 346.6 +88.0 K5 V 8.68 +1.18 +1.13 +0.49 055.0 17.0 060. 09. r 7.57 d -54 -74 -20 53680 CP-43 1184 U153 Gl 264.1A 07 02 25 -43 32.3 0.398 343.8 +86.4 G3 V 5.55 +0.64 +0.05 +0.22 050.2 08.4 066. 07. r 4.65 c -50 -73 -21 53705 CD-43 2906 Gl 264.1B 07 02 25 -43 32.3 0.398 343.8 +90.4 K0 V 6.79 +0.80 +0.37 +0.28 050.2 08.4 066. 07. r 5.89 c -51 -77 -22 53706 CD-43 2907 Gl 265 A s 07 02 35 +27 32.9 0.122 205.2 -25.3 M0 Ve 10.22 +1.32 +1.20 +0.45 059.7 13.6 059.7 13.6 9.10 d +23 -3 -14 BD+27 1311 V014 NN 3425 07 02 46 +67 16.8 0.279 254. dM0 M 11.18 +1.51 +0.88 056. 10. r 9.92 d G250-034 V242 LTT 11972 AC+67:2334 NN 3426 07 03 51 +48 46.2 0.309 185. m 13.40 +1.25 065. 12. r 12.46 d G107-048 NN 3427 07 04 06 +69 56.1 0.344 213. m 12.54 +1.02 044. 09. r 10.76 d G251-027 Gl 266 07 04 32 +03 31.8 0.320 183. dM0 M 9.84 +1.29 +0.53 042.3 10.3 042. 05. r 7.96 c G108-056 V487 AC+03:2350-326 Wo 9224 s 07 04 48 -47 30.6 0.20 139. k 10.54 +1.17 +1.17 +0.60C 039.4 15.3 024. 03. r 7.44 c CD-47 2804 LTT 2738 NN 3428 07 04 54 +29 55.1 0.343 206.6 +21. K3 K 8.32 +0.93 +0.58 040. 07. r 6.33 d -25 -30 -24 53927 BD+30 1423 G087-024 LTT 11979 NN 3429 07 05 28 +30 47.6 M0 s 11.36 +1.49 +1.17 +0.79 041. 07. r 9.42 d BD+ 7 1684 Steph 626 Gl 268 07 06 39 +38 37.5 1.052 207.9 +37.9 SB M4.5 Ve 11.49 +1.71 +1.20 +1.37 164.6 03.1 164.6 03.1 12.57 a -44 -20 -8 G087-026 226 Ross 986 AC+38:23616 NN 3430 A s 07 06 51 +37 45.3 0.367 220. sdM6 14.67 +1.65 +1.27 +1.25 041.5 02.9 041.5 02.9 12.76 b G087-028 NN 3431 B s 07 06 52 +37 45.3 0.367 220. DQ8 15.68 +0.30 -0.70 041.5 02.9 041.5 02.9 13.77 b G087-029 W051 sep 13" 226d (NLTT) NN 3432 07 08 16 +52 21.7 0.240 205. M0 s 11.29 +1.48 +1.21 +0.83 046. 08. r 9.60 d G193-037 NN 3433 p 07 08 34 -14 21.5 0.539 302.5 K5 K 9.94 +1.35 +1.25 +0.57 036.9 09.0 044. 08. r 8.16 d BD-14 1750 1900 LTT 2755 Ross 55 NSV 3445 NN 3434 07 09 27 -48 51.1 0.192 354.1 +63.6 K2 III 5.12 +1.26 +1.27 +0.47 040.6 23.9 040.6 23.9 3.2 f -32 -58 -13 55526 BD-48 2765 LTT 2758 Gl 268.1 07 11 08 -46 40.5 0.172 306.2 +1.1 F0 IV 4.48 +0.32 -0.01 +0.20C 046.1 10.2 046.1 10.2 2.80 d -15 +5 -9 55892 CD-46 2977 I Pup GJ 1095 07 12 08 +47 19.9 0.188 170.4 +85.2 G0 V 5.64 +0.58 +0.03 039.3 10.6 058. 09. r 4.46 d -80 -2 +33 55575 BD+47 1419 BS 2721 Gl 268.2 07 12 42 -63 15.9 0.623 333.3 -20. K5 V 9.10 +1.25 +1.22 +0.53 052.3 07.2 052.3 07.2 7.69 c -57 +18 +0 56533 CP-63 703 1908 GJ 1096 07 13 03 +33 14.8 0.426 198. m+ 14.48 +1.75 +0.86? +1.37 067.1 04.7 067.1 04.7 13.61 b G087-032 Gl 268.3 07 13 14 +27 14.0 0.240 187. dM0 M 10.85 +1.54 +1.28 +1.12 069.4 18.8 126. 25. r 11.35 d BD+27 1348 G109-055 V490 NN 3435 07 13 20 +58 29.8 0.096 211. DA4 12.0 : 082. 11. w 11.6 : c W GD 294 NN 3436 s 07 13 33 -12 57.8 0.531 289.3 +60.0 G2 V 7.75 +0.61 -0.02 +0.23 043.2 06.0 043.2 06.0 5.93 d -72 -15 -40 56274 BD-12 1871 1910 LTT 2776 Wo 9228 q 07 13 59 -15 29.7 0.059 251.8 +10.0 A3 V 5.44 +0.08 +0.06 021.2 16.2 021.2 16.2 2.1 f -8 -6 -13 56405 BD-15 1734 Gl 268.4 x 07 14 19 -40 56.6 0.332 309.6 +16.3 G3 V 9.09 +0.66 +0.10 +0.35C 045.5 11.9 045.5 11.9 7.4 e -34 -3 -18 56640 CP-40 1403 NN 3437 07 14 35 +19 39.9 0.426 233.3 m 12.80 +1.56 +1.22 +1.08 046.6 02.5 046.6 02.5 11.14 b G088-019 6 LTT 17957 NN 3438 07 14 44 +39 22.0 0.280 260. M0.5 K 10.33 +1.51 +1.20 +0.80 066. 13. r 9.43 d G107-061 LTT 12003 Ross 987 Gl 268.5 s 07 15 11 -13 54.6 0.267 216. K5 K 12.11 +1.43 +0.84C 044.0 18.8 019. 04. r 8.50 d AC-13:1069-363 Wo 9231 A 07 15 13 +16 37.9 0.062 229.7 -9.2 A3 V 3.58 +0.11 +0.10 -0.05 046.0 06.4 046.0 06.4 1.89 d +8 +1 -8 56537 BD+16 1443 Wo 9231 B 07 15 13 +16 37.9 0.062 229.7 10. * 046.0 06.4 046.0 06.4 8. * e sep 9.6" 33d d(m) = 6.24 Gl 269 A 07 16 03 -46 53.7 0.578 358.1 +59.0 K1 V 7.15 +0.99 J+0.78 J+0.36 J 081.6 07.8 081.6 07.8 6.71 c -43 -53 -3 57095 CD-46 3046 1911 U155 V(AB) = 6.69 d(m) = 0.70 Gl 269 B 07 16 03 -46 53.7 0.578 358.1 K4 V 7.9 * 081.6 07.8 081.6 07.8 7.5 * c a = 0.609" P = 84.0 yr Gl 270 07 16 15 +32 55.7 0.574 125.9 -68.9 dM1.5 W 10.07 +1.44 +0.80? +0.70 060.3 06.7 060.3 06.7 8.97 c +76 -31 +0 BD+33 1505 G087-033 1912 V016 Gl 271 A 07 17 08 +22 04.6 0.029 239.1 -15.3 SB F1 IV-V 3.53 +0.34 +0.04 +0.10 062.4 05.7 062.4 05.7 2.51 b +14 +4 -6 56986 BD+22 1645 DEL Gem BS 2777 ADS 5983 V(AB) = 3.52 d(m) = 4.67 Gl 271 B 07 17 08 +22 04.6 0.029 239.1 +2.2 K3 V 8.2 * 062.4 05.7 062.4 05.7 7.2 * c -3 -1 -1 a = 6.975" P 1200 yr NN 3439 s 07 19 33 +30 46.5 0.715 214.0 k-m 13.34 +1.50 +1.04 042.0 03.3 042.0 03.3 11.46 b G087-036 1914 LTT 17963 Gl 272 07 19 37 +46 11.3 0.280 215. -30.3 dM2 M 10.53 +1.46 +0.84 058.6 06.5 058.6 06.5 9.37 c +18 -17 -28 G107-065 V493 AC+47:256-150 GJ 2057 07 20 59 +13 04.1 0.440 169.5 +38.8 K2 K 8.20 +0.94 +0.80 +0.34 043. 06. r 6.37 d -17 -60 -4 57901 BD+13 1655 G089-016 LTT 12011 NN 3440 07 21 30 -82 54.8 0.676 352.7 m 11.75 +0.89 044. 08. r 9.97 d 1909 LTT 2823 L 15-86 NN 3441 07 24 31 +22 08.9 0.292 237. m 11.23 +1.49 +1.20 +0.92 051.5 02.5 051.5 02.5 9.79 b G088-028 LTT 12020 Ross 878 Gl 273 07 24 43 +05 22.7 3.761 171.2 +18.2 M3.5 K 9.85 +1.56 +1.16 +1.21 264.4 02.0 264.4 02.0 11.96 a +16 -66 -17 BD+05 1668 G089-019 33 V017 Gl 273.1 07 25 49 +32 05.7 0.232 44.4 -4.1 dK8 M 7.74 +0.94 +0.65 +0.37 048.3 05.9 048.3 05.9 6.16 c +10 +11 +18 58830 BD+32 1561 G090-001 V880 Gl 274 A 07 25 54 +31 53.1 0.232 41.6 +3.1 SB? F0 V 4.18 +0.32 -0.03 059.1 05.0 059.1 05.0 3.04 b +2 +9 +16 58946 BD+32 1562 RHO Gem Gl 274 B 07 25 54 +31 53.1 0.232 41.6 12.5 * 059.1 05.0 059.1 05.0 11.4 * b NN 3442 07 26 00 -18 42.0 0.588 3.9 k-m 13.65 +1.35 086. 13. r 13.32 d 1918 LTT 2844 L 744-10 LP 782-2 Wo 9234 07 26 09 +49 46.7 0.139 133.0 -26.7 F6 V 5.36 +0.45 -0.06 044.7 10.2 044. 05. r 3.58 c +25 -18 -4 58855 BD+49 1630 Gl 275 07 26 11 -51 18.0 0.283 267.6 +3.4 G5 IV-V 6.73 +0.70 +0.26 056.5 15.3 056.5 15.3 5.5 e -9 +4 -22 59468 CD-51 2507 GJ 1097 07 26 14 -03 11.2 0.940 150.9 M3 11.43 +1.50: +1.17 +1.10 090.8 02.7 090.8 02.7 11.22 a G112-021 1920 Gl 275.1 07 26 52 +68 43.7 0.220 238. +4. dM0 M 10.89 +1.43 +0.83 053.0 11.9 055. 09. r 9.59 d -15 -2 -12 G250-049 V245 AC+68:3124 NN 3443 07 27 00 -07 26.9 0.142 24.8 +9.1 F8 V 5.86 +0.48 -0.02 040. 05. r 3.87 c -13 +2 +14 59380 BD- 7 1996 Gl 275.2A 07 27 02 +48 19.4 1.295 189.8 sdM5 13.56 +1.71 +1.22 086.5 02.3 086.5 02.3 13.25 a G107-069 229 Gl 275.2B 07 27 06 +48 17.8 1.295 189.8 DC 14.63 +0.99 +0.36 086.5 02.3 086.5 02.3 14.32 a G107-070 230 W052 NN 3444 07 27 48 +58 02.0 0.929 178.6 +16. M6 : 17.4 * 055. 04. s 16.1 * b -45 -68 +0 1923 LP 88-196 Mv = 16.1 +- .9 G&L ApJ 305, 784 Gl 276 07 28 18 +14 43.5 0.297 167.6 +65.6 dK8 M 8.98 +1.10 +1.06 +0.45 045.6 05.4 045.6 05.4 7.27 c -47 -54 +11 59582 BD+14 1684 G089-026 V247 NN 3445 07 28 32 +39 20.2 0.293 146. m 13.08 +1.10 043. 09. r 11.25 d G111-009 Gl 277 A 07 28 40 +36 19.8 0.440 231.5 +0.1 SB dM3.5e W 10.58 +1.47 +1.15 +1.07 083.0 02.4 083.0 02.4 10.18 a -9 -9 -22 BD+36 1638 G087-044 V246 VV Lyn Gl 277 B 07 28 39 +36 20.4 0.441 231. +0.1 dM4.5e W 11.78 +1.52 +1.18 +1.22 083.0 02.4 083.0 02.4 11.38 a -9 -10 -22 G087-043 Ross 989 GJ 1098 07 28 49 +64 16.1 0.258 164. DC9 16.38 +0.91 055. 06. w 15.08 c G234-004 W321 LP 58-247 NN 3446 07 28 56 -37 14.0 0.096 297.4 +8.6 G4 V 6.64 +0.63 044. 05. r 4.86 c -11 -4 -7 59967 CD-37 3637 NN 3447 A s 07 29 11 +17 25.7 0.270 238. dM0 M 11.02 +1.38 +1.28 +0.67 040.4 04.6 040.4 04.6 9.05 c G088-036 V498 NN 3448 B s 07 29 10 +17 25.7 0.270 238. m 12.95 040.4 04.6 040.4 04.6 10.98 c G088-035 Wor 27 sep 11" NN 3449 A 07 29 42 -08 46.3 0.185 209.9 +55.0 F9 V 5.90 +0.54 -0.08 +0.21 046. 06. r 4.21 c -32 -47 -12 59984 BD-08 1964 BS 2883 NN 3450 B 07 29 42 -08 46.3 0.185 209.9 8.6 * 046. 06. r 6.9 * c cpm with ADS 6158 ? sep 23.4" Gl 277.1 07 29 57 +63 03.1 0.424 261.8 dM0 M 10.49 +1.55 +0.80 070.4 04.6 070.4 04.6 9.73 b G234-005 6 V497 AC+63:14097 NN 3451 x 07 30 50 +22 30.6 1.104 122.8 m 16.46 +1.60 040.7 01.0 040.7 01.0 14.51 a 231 LP 365-22 NN 3452 07 31 12 +54 58.0 0.104 291. dM0 M 11.29 +1.55 +0.98 071. 14. r 10.55 d V499 Gl 278 A 07 31 25 +32 00.0 0.198 238.9 +6.0 SB A1 V 1.94 +0.04 J+0.02 J 068.3 02.8 068.3 02.8 1.11 a -10 -4 -10 60179 BD+32 1581 ALF Gem BS 2891 ADS 6175 V(AB) = 1.56 d(m) = 0.95 Gl 278 B 07 31 25 +32 00.0 0.198 238.9 -1.2 SB A m 2.85 068.3 02.8 068.3 02.8 2.02 a -4 -3 -13 60178 BS 2890 a = 6.295" P = 420.07 yr Gl 278 C 07 31 26 +31 58.8 0.232 241.4 -1.9 SB M0.5Ve 9.07J +1.49 J+1.04 J+0.78 J 068.3 02.8 068.3 02.8 8.24J a -4 -3 -15 BD+32 1582 YY Gem sep(AC) 72.5" 64d (1835-1955) d(m) = 0.0 NN 3453 07 31 39 +22 26.9 0.200 119. k 11.53 +1.50 +1.32 055. 27. r 10.2 f LP 365-24 GJ 1099 07 31 43 +01 06.2 0.628 175.6 m 11.93 +1.47 +1.11 +1.03 068.2 02.6 068.2 02.6 11.10 a G112-027 1928 Gl 279 07 31 55 -22 11.2 0.062 313.2 +61.0 F6 IV 4.45 +0.51 +0.05 +0.30C 048.0 08.2 048.0 08.2 2.86 d -38 -48 -3 60532 BD-21 2007 Wo 9237 s 07 33 32 -03 02.5 0.304 289.4 G0 K 7.16 +0.57 +0.03 039.1 15.3 028. 05. r 4.40 d 60779 BD-02 2197 G112-029 LTT 2893 NN 3454 07 33 43 +07 11.7 0.354 145. m 13.22 +1.48 162. 26. r 14.27 d G089-032 LTT 17993 Wo 9238 s 07 34 49 +28 23.8 0.503 129.1 M3 K 13.85 +1.47 +0.92 +0.99 039.7 03.4 039.7 03.4 11.84 b G088-043 1933 LTT 12045 LFT 536 Ross 394 NN 3455 07 34 52 -51 48.5 0.612 41.0 m 12.45 +1.12 062. 12. r 11.41 d 1932 LTT 2899 L 240-16 NN 3456 07 35 18 +85 06.0 0.373 204. m 12.80 +1.09 048. 10. r 11.21 d G222-018 LP 4-258 NN 3457 A p 07 36 22 +33 34.9 0.243 222. m 11.83 +1.46 +1.19 +0.93 026.4 02.5 026.4 02.5 8.94 c G090-016 LTT 17998 NN 3458 B p 07 36 23 +33 35.0 0.243 222. m+ 18. * 026.4 02.5 026.4 02.5 15. * e LP 256-44 sep 13" 56d NN 3459 07 36 29 -21 06.1 0.681 138.1 m 11.7 * +1.09 079. 16. r 11.2 * d 1935 LTT 2906 L 672-19 LP 783-1 Gl 280 A 07 36 41 +05 21.3 1.247 214.5 -4.0 SB F5 IV-V 0.38 +0.42 +0.02 +0.14 285.8 05.3 285.8 05.3 2.66 a +5 -8 -19 61421 BD+05 1739 233 ALF Cmi Gl 280 B 07 36 41 +05 21.3 1.247 214.5 DA 10.7 * 285.8 05.3 285.8 05.3 13.0 * a W053 Gl 281 07 36 48 +02 18.2 0.270 205. +10. dM0 M 9.61 +1.44 +1.28 +0.71 070.0 03.4 070.0 03.4 8.84 b -4 -17 -12 BD+02 1729 G112-035 V503 Gl 282 A 07 37 29 -03 28.7 0.297 165.7 -21.1 K2 Ve 7.20 +0.96 +0.73 +0.32 074.3 06.5 074.3 06.5 6.55 b +27 +0 -8 61606 BD-03 2001 G112-037 U165 Gl 282 B 07 37 33 -03 29.0 0.279 165.1 -13.4 K5 K 8.94 +1.33 +1.24 +0.57 074.3 06.5 074.3 06.5 8.29 b +21 -5 -6 BD-03 2002 G112-038 NN 3460 s 07 38 01 +49 20.4 0.076 261.2 +7.6 dK8 M 9.73 +1.19 +1.06 +0.47 046.5 18.3 036. 04. r 7.51 c -11 +2 -5 BD+49 1658 V501 Gl 283 A 07 38 02 -17 17.4 1.252 116.6 +11. DZQ6 13.00 +0.24 -0.62 +0.04 112.0 05.0 112.0 05.0 13.25 a +56 +3 +28 235 W054 L 745-046 Gl 283 B 07 38 02 -17 17.4 1.252 116.6 m 16.42 +1.83 112.0 05.0 112.0 05.0 16.67 a 234 NN 3461 07 39 15 +05 09.6 0.285 253. m 12.71 +1.08 048. 10. r 11.12 d G050-001 LTT 12058 NN 3462 07 40 18 +18 18.3 0.500 188.5 k-m 11.34 +1.40 +1.05 +0.87 049. 09. r 9.79 d BD+18 1719 G088-048 1942 LTT 12062 L 1249-13 Gl 284 07 41 24 -45 02.7 0.561 188.3 +28.0 VAR G6 IV 5.06 +0.77 +0.32 +0.27 054.1 10.2 054.1 10.2 3.73 d +34 -30 -34 62644 CD-44 3675 1939 Gl 285 07 42 04 +03 40.8 0.604 221.4 +26.8 dM4.5e W 11.20v +1.60 +1.00 +1.4 v 161.1 04.1 161.1 04.1 12.24v a -20 -23 -10 G050-004 1943 YZ CMi Ross 882 LFT 547 Gl 285.1 q 07 42 11 +70 19.9 0.169 212.3 -22.6 SB dG5 W 7.09 +0.66 +0.27 029.8 11.1 040. 07. r 5.10 d +2 -23 -20 61994 BD+70 474 Gl 286 07 42 16 +28 08.9 0.628 265.3 +3.6 K0 IIIb 1.14 +1.00 +0.85 +0.35 100.3 05.3 100.3 05.3 1.15 b -16 +4 -25 62509 BD+28 1463 1945 BET Gem Gl 287 p 07 42 25 +02 15.7 0.225 167.3 -21. dM0 M 10.20 +1.37 +1.31 +0.60 036.2 11.5 043. 06. r 8.37 d +30 -8 -11 BD+02 1766 V505 Gl 288 A 07 43 43 -34 04.4 1.700 350.2 +102.6 G0 V 5.36 +0.59 -0.06 +0.23 062.5 08.6 062.5 08.6 4.34 c -151 -56 +36 63077 CD-33 4113 237 Gl 288 B 07 43 51 -33 49.2 1.63 348. m 16.59 +1.20 +0.57C 062.5 08.6 062.5 08.6 15.57 c 237a VB3 GJ 1100 s 07 44 46 -13 48.6 0.492 165.7 M1 K 11.50 +1.41 +0.75 046.7 06.1 046.7 06.1 9.85 c 5127 Ross 391 GJ 1101 07 44 56 +83 31.3 0.646 205.2 m 13.09 +1.68 +1.28 080.1 03.1 080.1 03.1 12.61 a G253-006 1956 Gl 289 07 45 15 +20 30.4 1.728 124.2 +48.4 M2 K 11.46 +1.52 +1.10 +0.89 066.7 02.7 066.7 02.7 10.58 a +16 -103 +81 G091-011 238 V507 Wolf 1421 GJ 1102 A 07 47 33 +07 20.7 1.778 173.2 DC9 16.69 +1.10 058.6 02.0 058.6 02.0 15.53 a 240 W427 LP 543-33 USNOP GJ 1102 B 07 47 32 +07 20.9 1.778 173.2 DC9 16.98 +1.30 058.6 02.0 058.6 02.0 15.82 a 239 W426 LP 543-32 Gl 290 07 48 07 +80 23.7 0.489 279.2 -7.2 G8 V 6.56 +0.73 +0.28 060.5 08.8 060.5 08.8 5.47 d -9 +9 -37 62613 BD+80 238 5130 Wo 9242 s 07 48 31 -59 15.0 0.376 126.2 +3.1 G5 V 7.50 +0.68 +0.19 042.3 18.8 033. 05. r 5.09 d +48 -8 +23 64184 CP-59 907 LTT 2959 NN 3463 07 49 11 +05 41.0 0.572 134.9 m 14.75 +1.82 +1.47 062.8 03.6 062.8 03.6 13.74 b G050-006 1950 LTT 12076 GJ 1103 A 07 49 20 +00 08.1 0.766 160.6 +52. m 13.50 +1.68 J+1.05 J+1.43 J 113.8 03.3 113.8 03.3 13.78 a -19 -57 +7 G112-050 1951 LP 603-1 L 961-1 V(AB) = 13.26 d(m) = 1.5 GJ 1103 B 07 49 21 +00 08.2 0.766 160.6 m 15.0 * 113.8 03.3 113.8 03.3 15.3 * a 1952 LP 603-2 sep 3" 78d d(R) = 1.3, d(pg) = 1.0 (LHS) Gl 291 A 07 49 27 -13 45.8 0.350 191.0 -21.5 SB F9 V 5.72c +0.57c +0.05c +0.24tJ 062.7 04.1 062.7 04.1 4.71c b +28 +3 -20 64096 BD-13 2267 ADS 6420 V(AB) = 5.17 d(m) = 0.73 Gl 291 B 07 49 27 -13 45.8 0.350 191.0 G4 V 6.17c +0.65c +0.14c 062.7 04.1 062.7 04.1 5.16c b a =0.622" P = 23.30 yr ; UBV from d(m) =0.7 (Eggen) ! Gl 291.1 s 07 49 42 -50 10.7 0.21 320. K2 C 10.06 +1.22 +1.18 046.6 10.2 046.6 10.2 8.40 d CP-49 1388 U629 NN 3464 07 49 45 +26 03.5 0.159 167.7 K4 s 8.60 +1.04 +0.90 +0.40 046. 05. r 6.91 c BD+26 1665 Steph 665 NN 3465 07 49 53 +06 26.4 0.227 168. m 13.56 +1.14 040. 08. r 11.57 d G050-007 LTT 12080 GJ 1104 s 07 50 22 +30 45.7 1.972 158.4 -235.0 VAR G2 VI 8.30 +0.61 -0.13 +0.26 044.1 03.1 044.1 03.1 6.52 b +251 -170 -90 64090 BD+31 1684 G090-025 241 Gl 292 A 07 50 24 -34 34.7 0.310 319.8 +26.7 F5 V 5.05 +0.44 J-0.06 J+0.16 J 069.9 06.5 069.9 06.5 4.27 c -28 -18 -5 64379 CD-34 4036 BS 3079 V(AB) = 5.01 d(m) = 3.55 Gl 292 B 07 50 24 -34 34.7 0.310 319.8 K3 K 8.6 * 069.9 06.5 069.9 06.5 7.8 * c sep 3.0" 274d (1959) Gl 292.1 p 07 51 59 +19 22.5 0.461 167.8 -18.7 dK6 W 7.78 +0.95 +0.80 +0.36 035.5 04.0 035.5 04.0 5.53 c +35 -51 -17 64468 BD+19 1869 G091-019 6 Gl 292.2 07 52 03 -01 16.8 0.283 259.0 +102.0 SB G8 V 7.43 +0.73 +0.16 +0.30 051.9 10.2 043. 07. r 5.60 d -86 -63 -5 64606 BD-01 1883 G112-054 NN 3466 AB 07 52 52 -29 12.6 0.548 148.3 M4 K 13.38 +1.33 J 080. 13. r 12.90 d 1955 LTT 2982 L 601-78 LP 898-1 V(AB) = 12.85 d(m) = 0.5 ; sep 0.8" 290d Gl 293 07 52 52 -67 38.4 2.041 135.6 DQ9 14.08 +0.66 -0.17 +0.15 144.7 13.9 144.7 13.9 14.88 c 34 W056 L 97-12 GJ 1105 07 54 47 +41 26.9 0.685 163.0 -11. k 12.00 +1.63 +1.15 +1.21 123.5 03.0 123.5 03.0 12.46 a +10 -26 -3 G111-047 1963 Gl 293.1A 07 55 25 -00 40.7 0.181 270.0 -4.0 K5 V U 8.06 +1.04 J+0.99 J+0.42 J 052.9 08.6 052.9 08.6 6.68 d -5 +6 -15 65277 BD-00 1866 G113-007 U169 ADS 6487 V(AB) = 8.05 d(m) = 5.3 Gl 293.1B 07 55 25 -00 40.7 0.181 270.0 13.3 * 052.9 08.6 052.9 08.6 11.9 * d 65277 sep 2.0" 93d to 4.1" 69d (1908-56) NN 3467 07 55 29 +07 25.2 0.336 266. m 13.77 +1.31 070. 11. r 13.00 d G050-012 LTT 12102 NN 3468 A 07 55 41 +15 38.5 0.115 218. m 14.24 +1.25 048. 05. r 12.65 c LDS 3768 NN 3469 B 07 55 40 +15 38.3 0.115 218. m 15.09 +1.39 048. 05. r 13.50 c LDS 3768 GJ 1106 07 55 54 -33 49.2 0.320 14.9 K5 V U 8.84 +1.16 +1.02 +0.46 053. 08. r 7.46 d CD-33 4354 U170 LTT 3008 Gl 293.2 07 55 57 -25 29.2 0.435 123.8 -5.1 K3 V 8.42 +1.05 +0.84: +0.38 051.2 08.5 051.2 08.5 6.97 d +35 -12 +17 65486 CD-25 5342 V510 NN 3470 07 56 17 +15 31.7 0.188 255. m 12.33 +0.98 043. 08. r 10.50 d LP 424-4 NN 3471 p 07 56 37 +20 59.3 0.588 161.7 -28.2 K0 V 7.70 +0.82 +0.48 +0.28 028.0 09.2 042. 06. r 5.82 d +46 -53 -15 65430 BD+21 1731 G040-002 1966 LTT 12105 Wo 9247 s 07 56 45 -34 48.7 0.410 295.6 +23.7 G6 V 7.95 +0.74 +0.25 041.8 07.8 041.8 07.8 6.06 d -44 -9 -26 65721 CD-34 4160 LTT 3016 NN 3472 p 07 56 48 -36 52.9 0.196 162.5 K0/1 V 7.00 +0.98 +0.69 +0.38 019.1 15.3 084. 11. r 6.62 c 65723 CD-36 4067 LTT 3018 Gl 294 A 07 56 52 -60 10.1 0.540 76.7 +14.1 SB G2 V 5.60 +0.57 +0.02 +0.20 063.0 06.0 063.0 06.0 4.60 c +12 -24 +34 65907 CD-59 1773 1959 BS 3138 CP-59:944 Gl 294 B 07 57 00 -60 09.8 0.528 077.8 k 9.88 +1.34 J+1.09 J+0.76 J 063.0 06.0 063.0 06.0 8.88 c CD-59 1774 1960 V(BC) = 9.83 d(m) = 3.6 Gl 294 C 07 57 00 -60 09.8 0.528 077.8 13.5 * 063.0 06.0 063.0 06.0 12.5 * c sep(BC) = 2.3" 270d (1940) Gl 295 07 57 27 +29 22.0 1.181 187.8 +14.7 G8 V 7.00 +0.71 +0.18 +0.28 051.5 04.6 051.5 04.6 5.56 b -13 -103 -35 65583 BD+29 1664 242 Gl 295.1 s 07 57 28 +13 56.2 0.14 216. +30. K5 e K 10.36 +1.26 +1.30 +0.50 055.9 18.8 031. 05. r 7.82 d -26 -26 -6 BD+14 1802 V018 Gl 296 07 58 15 -39 53.5 0.849 142.7 +5.5 K7 V 9.66 +1.34 +1.21 +0.59 059.1 15.6 053. 10. r 8.28 d +72 -25 +7 66020 CP-39 1929 1968 U172 NN 3473 A 07 59 47 +03 29.1 0.552 229.5 k-m 13.7 * +1.17 041. 08. r 11.8 * d G050-016 1972 NN 3474 B 07 59 45 +03 28.5 0.552 229.5 m+ 17. * 041. 08. r 15. * e 1971 LP 544-12 sep 49" 223d NN 3475 p 08 00 53 +44 06.2 0.132 95. -3. K5 K 9.83 +1.27 +1.19 +0.54 019.2 23.9 043. 07. r 8.00 d +10 -4 +11 BD+44 1710 V019 NN 3476 08 02 08 -65 52.7 0.189 227.3 K1 V 7.14c +0.94c 069. 10. r 6.33c d 67199 CP-65 0858 CD-65:599 LTT 3046 V, B-V from CPC GJ 1107 08 02 29 +34 13.4 0.280 146. -4.9 dM0 p M 10.14 +1.35 +1.25 +0.56 054.5 08.0 054.5 08.0 8.82 d +11 -22 +5 BD+34 1740 G090-043 V511 NN 3477 08 02 37 +56 02.4 0.182 128. M0 s 11.48 +1.49 +1.28 053. 26. r 10.1 f LP 123-75 NN 3478 08 02 57 +26 25.5 M0 s 10.21 +1.46 +1.20 +0.72 058. 09. r 9.03 d BD+26 1715 Steph 681 NN 3479 08 03 33 +36 54.6 0.395 199. m 12.95 +1.15 054. 11. r 11.61 d G090-044 LTT 18035 NN 3480 08 04 06 +58 39.5 0.181 248. m 12.69 +1.09 050. 10. r 11.18 d LP 89-101 Wo 9251 A s 08 04 28 +07 31.8 0.136 181.3 +20. dK8 M 10.45 +1.24 J+1.18 J+0.46 048.4 07.4 027. 02. r 7.61 b -6 -30 -4 BD+07 1919 V512 ADS 6597 V(AB) = 9.69 d(m) = 0.5 Wo 9251 B s 08 04 28 +07 31.8 0.127 184.1 K8 10.86 +0.56 048.4 07.4 027. 02. r 8.02 b V512 sep 5.7" Gl 296.1 08 04 58 -29 15.2 0.494 136.3 -17.6 G4 IV-V 6.80 +0.60 +0.03 +0.22 051.5 09.5 051.5 09.5 5.36 d +48 -1 +8 67458 CD-29 5555 1982 Gl 296.2 s 08 05 11 +69 52.2 0.205 54.6 -14.1 SB F8 V 6.57 +0.58 +0.01 046.0 10.2 037. 05. r 4.41 c +28 +2 +9 66751 BD+70 497 NN 3481 A 08 05 18 +21 15.3 0.466 221.3 K5 9.80 +1.38 J+1.24 J 059. 27. r 8.7 f BD+21 1764 G040-007 5133 LTT 12130 V(AB) = 9.49 d(m) = 1.2 NN 3482 B 08 05 18 +21 15.2 0.487 227.2 m 11.0 * 059. 27. r 9.9 * f 5134 LTT 12131 sep 9" 157d GJ 1108 A p 08 05 46 +32 58.2 0.219 194.3 +4. dM0.5e W 10.05 +1.35 +1.13 +0.67 035.4 13.6 058. 10. r 8.87 d -5 -17 -6 BD+33 1646 V250 AC+33:29235 GJ 1108 B p 08 05 45 +32 57.9 dM3 e W 12.12 +1.53 +1.17 035.4 13.6 058. 10. r 10.94 d sep 12.3" 243d (GSC 1983.13) NN 3483 08 06 24 -66 09.0 0.473 128. DQ5 13.92 +0.05 -0.90 043. 05. w 12.09 c W LTT 3059 L 97-3 BPM 4834 NN 3484 08 06 36 +22 03.2 0.338 258. m 11.81 +1.53 +1.22 +0.94 050. 09. r 10.30 d G040-009 LTT 12136 L 1321-40 LP 366-45 Gl 297.1 08 08 11 -61 09.0 0.338 207.4 +25.0 F5 V 4.76 +0.43 -0.03 +0.26C 053.0 07.2 053.0 07.2 3.38 c +18 -16 -31 68456 CP-60 1074 B CAR NN 3485 08 08 16 +04 07.8 0.350 164. m 13.51 +1.22 055. 10. r 12.21 d G050-021 LTT 12143 Gl 297.2A 08 08 21 -13 39.1 0.263 282.1 +33.0 SB? F7 V 5.54 +0.49 -0.00 +0.18 048.8 05.0 048.8 05.0 3.98 c -35 -19 -12 68146 BD-13 2420 Gl 297.2B 08 08 15 -13 39.9 0.249 282. +34.4 SB? M3 K 11.82 +1.51 +0.99 048.8 05.0 048.8 05.0 10.26 c -35 -20 -11 L 818-040 Wo 9256 08 08 31 +32 36.9 0.807 215.7 +30.6 G4 V 6.81 +0.69 +0.13 043.7 07.3 043.7 07.3 5.01 d -51 -64 -43 68017 BD+32 1695 1987 LFT 567 Gl 298 08 08 42 -52 49.7 0.820 319.5 +85. m 11.77 +1.50 +1.08 +1.06 046.0 18.7 068. 13. r 10.93 d -60 -80 -24 1985 L 242-066 Gl 299 08 09 11 +08 59.7 5.211 167.1 -35.0 dM5 W 12.83 +1.77 +1.40 +1.31 148.0 02.6 148.0 02.6 13.68 a +106 -124 -48 G050-022 35 Ross 619 NN 3486 08 10 10 -83 05.1 0.610 307.5 m 12.55 +1.03 045. 09. r 10.82 d 1978 LTT 3077 L 15-97 Wo 9258 08 10 25 -07 03.1 0.162 119.5 -20.5 K0 7.93 +0.90 +0.58 041.3 22.2 045. 06. r 6.20 c +26 +7 +3 68586 BD-06 2514 Gl 300 08 10 29 -21 23.5 0.707 177.5 M4 K 12.10: +1.60: +1.31 170.0 10.2 170.0 10.2 13.25: b 1989 L 674-015 Gl 301 A 08 10 50 -13 45.5 0.556 206.7 +20.0 SB? M0 V U 9.74 +1.41 J+1.23 J+0.66 J 054.8 10.3 054.8 10.3 8.43 d +5 -37 -37 BD-13 2439 1991 V020 ADS 6664 V(AB) = 9.38 d(m) = 0.44 Gl 301 B 08 10 50 -13 45.5 0.556 206.7 10.7 * 054.8 10.3 054.8 10.3 9.4 * d a = 0.815" P = 64.65 yr Wo 9259 s 08 11 10 -40 23.0 0.265 126. +38.7 G8 (IV) 9.39 +0.82 +0.43 +0.41C 041.7 13.6 041.7 13.6 7.5 e +19 -44 +8 68916 CD-40 3981 LTT 3084 NN 3487 08 11 48 +10 20.5 0.018 254.2 G5 7.32 080. 09. o 6.84 c 68835 BD+10 1756 NN 3488 08 11 51 +13 10.5 0.433 282.1 K4 K 8.85 +1.20 +1.13 053. 10. r 7.47 d 68834 BD+13 1870 G050-027 LTT 12158 Ross 620 GJ 2066 08 13 34 +01 27.4 0.370 277. m 10.10 +1.53 +1.20 +0.96 114.0 03.9 114.0 03.9 10.38 a G113-020 NN 3489 A 08 14 19 -35 43.7 0.028 13.6 G8/K0 V 7.2 c +0.94c 071. 12. r 6.5 c d 69565 CD-35 4406 V, B-V from CPC NN 3490 B 08 14 19 -35 43.7 0.028 13.6 11.0 : 071. 12. r 10.3 : d NN 3491 08 14 45 +31 17.0 0.240 341. k 11.22 +1.49 +1.22 060. 29. r 10.1 f G090-052 LTT 18046 NN 3492 08 14 51 -76 00.0 0.657 329.8 k-m 11.85 +1.04 063. 13. r 10.85 d 1992 LTT 3096 L 34-16 Gl 301.1 08 15 05 +30 46.1 0.872 199.0 +11.6 K4 V 8.85 +1.14 +1.11 +0.42 046.3 04.6 046.3 04.6 7.18 c -20 -79 -37 BD+31 1781 G051-006 1998 Gl 302 08 16 01 -12 27.7 1.033 164.0 +30.5 G7.5 V 5.97 +0.76 +0.32 +0.26 079.3 06.4 079.3 06.4 5.47 b +29 -62 -10 69830 BD-12 2449 245 NN 3493 s 08 16 26 -15 02.7 0.073 131. +55. K3 V U 9.84: +1.13 +1.09: +0.48 048.8 04.0 048.8 04.0 8.28: b -24 -49 +13 BD-14 2469 V518 U182 SB? pos(BDX) GJ 1109 08 16 41 -36 30.2 0.147 309.8 +5.1 A7 III 4.45 +0.22 +0.11 055.8 10.3 055.8 10.3 3.18 d -13 -2 -3 70060 CD-36 4449 BS 3270 Gl 303 08 17 02 +27 22.9 0.381 182.3 +33.0 SB? F6 V 5.14 +0.47 -0.06 063.8 08.5 063.8 08.5 4.16 c -25 -35 +9 69897 BD+27 1589 CHI Cnc NN 3494 p 08 18 08 +14 14.0 0.274 197. +15.0 K5 K 9.82 +1.29 +1.21 +0.55 035.8 20.5 044. 08. r 8.04 d -8 -30 -11 BD+14 1876 G050-030 V021 LTT 12180 Gl 304 08 19 41 -39 32.9 0.308 317.5 +48.1 G6 V 7.17 +0.71 +0.29 +0.35C 059.4 11.9 059.4 11.9 6.04 d -34 -42 -5 70642 CD-39 4247 NN 3495 08 19 50 +31 44.8 0.007 225.6 G5 8.11 054. 06. o 6.77 c 70401 BD+32 1724 Gl 305 08 19 51 -76 45.7 0.156 46.2 -13.2 F6 IV 4.07 +0.40 -0.02 +0.24C 057.4 06.2 057.4 06.2 2.86 c -6 +6 +16 71243 CP-76 507 ALF Cha NN 3496 08 20 10 +84 34.1 0.358 54. m 13.42 +1.62 +1.26 +1.14 043. 09. r 11.59 d G253-013 LP 5-110 Gl 305.1 p 08 20 34 +22 00.9 0.378 132.0 -27.3 dM0 e W 9.54 +1.18 +1.12 +0.48 030.7 19.0 041. 07. r 7.60 d +46 -23 +4 BD+22 1921 G009-002 V022 NN 3497 08 21 00 +69 13.0 1.377 205.4 dM5.2 15.67 +2.09 079.9 06.5 079.9 06.5 15.18 b 246 LP 35-347 USNO 710 NN 3498 s 08 22 03 +32 46.9 0.686 178.9 -78.3 K3 K 10.05 +1.06 +0.86 +0.42 039.5 12.6 025. 04. r 7.04 d +72 -116 -66 BD+33 1694 G051-010 2007 V251 LFT 583 LTT 12198 Gl 306 s 08 22 05 -03 35.3 0.218 261.4 +73.0 SB F3 V 5.61 +0.46 -0.06 +0.28C 055.0 05.4 055.0 05.4 4.31 c -56 -50 +7 70958 BD-03 2333 Gl 306.1 s 08 23 46 -29 45.7 0.337 153.9 +15.9 VAR G4 V 7.81 +0.67 +0.17 +0.27 053.4 13.6 030. 05. r 5.20 d +44 -33 -7 71334 CD-29 6145 Gl 307.1 08 24 08 +45 49.4 0.353 182.5 -31.9 G5 V 6.32 +0.62 +0.12 046.5 09.1 050. 08. r 4.81 d +20 -35 -22 71148 BD+46 1398 NN 3499 08 25 12 -65 58.2 0.162 191.3 +27.4 K2 III 3.76 +1.13 +1.14 039.8 10.2 039.8 10.2 1.8 e +18 -20 -20 71878 CP-65 933 FK 319 Gl 308 A s 08 25 15 +35 11.2 1.102 251.5 M0 V 11.48 +1.55 J+1.20 J+0.77 J 051.2 15.3 034. 07. r 9.14 d G051-013 247 V253 AC+36:28826 Wor 19 V(AB) = 10.73 d(m) = 0.1 Gl 308 B s 08 25 15 +35 11.2 1.102 251.5 11.56 051.2 15.3 034. 07. r 9.22 d a = 0.56" P = 32.7 yr GJ 1110 s 08 25 20 +20 18.9 0.667 202.3 +142. g-k 13.08 +1.48 +1.06 +1.04 044.8 03.7 044.8 03.7 11.34 b -113 -107 +29 G009-007 2011 Gl 308.1 p 08 25 39 +61 54.2 0.864 145.7 dM0 M 10.33 +1.37 +1.17 +0.65 023.2 05.0 045. 07. r 8.60 d G234-035 2018 V521 AC+62:18836 NN 3500 08 25 40 -44 49.7 0.577 342.7 M3 K 11.85 +1.16 087. 16. r 11.55 d 2010 LTT 3139 L 387-102 GJ 1111 08 26 53 +26 57.2 1.290 242.2 -5. M6.5 14.81 +2.06 +2.11 +1.94 275.8 03.0 275.8 03.0 17.01 a -6 -6 -21 G051-015 248 GJ 1112 08 27 32 +32 52.4 0.548 195.6 -18. DA7 15.72 +0.30 -0.54 045.4 03.8 045.4 03.8 14.01 b +45 -43 -58 G051-016 2022 W249 GJ 2069 A 08 28 46 +19 34.0 0.282 245. M5 e 11.89 +1.26 114. 13. r 12.17 c G009-008 G040-025 GJ 2069 B 08 28 46 +19 34.2 0.282 245. 13.32 +1.36 114. 13. r 13.60 c G040-026 NN 3501 A 08 28 55 -05 51.8 0.432 259. M1.5 K 11.21 +1.41 +0.84 049. 08. r 9.66 d G113-042 LTT 3154 L 891-16 LP 665-21 NN 3502 B 08 29 00 -05 52.0 0.432 259. M3 K 12.36 +1.47 +1.03 049. 08. r 10.81 d G113-043 LTT 3155 L 891-15 LP 665-22 sep 83" 97d NN 3503 08 29 01 -10 19.5 0.661 241.4 m 15.0 * +1.45 065. 10. r 14.1 * d 2024 LP 725-15 NN 3504 08 29 58 -01 24.0 0.500 161.0 m 18.44 050.8 00.5 050.8 00.5 16.97 a 2026 LP 605-23 Gl 308.3 s 08 30 27 -50 01.3 0.29 317. m 10.80 +1.21 +1.10 +0.63C 053.2 17.0 023. 03. r 7.61 c CP-49 1686 NN 3505 08 30 34 +18 42.5 0.625 187.3 m 14.75 +1.33 048. 08. r 13.16 d G009-009 2027 LTT 12227 Gl 309 08 30 54 -31 20.4 1.350 304.0 +15.7 K0 V 6.39 +0.78 +0.32 +0.28 082.3 11.4 082.3 11.4 5.97 d -75 +5 -25 72673 CD-31 6229 249 NN 3506 08 31 12 +68 14.9 1.010 233.1 M3 K 11.67 +1.57 +1.08 076.2 03.0 076.2 03.0 11.08 a G234-037 250 LFT 592 LTT 12230 L 1866-6 Wo 9269 08 31 36 -23 11.1 0.337 302.6 +19.4 K1(IV)+G 7.21 +0.74 +0.38 039.0 13.6 039.0 13.6 5.2 f -44 -4 -12 72769 BD-22 2317 LTT 3170 possibly composite (Mich) GJ 2070 08 31 53 -00 58.0 0.472 155.9 M3.5 K 12.73 +1.62 066. 23. r 11.8 f G113-046 6 LTT 3171 Gl 310 08 31 55 +67 28.1 1.066 272.0 +11.6 dM1 W 9.30 +1.42 +1.23 +0.71 067.3 05.1 067.3 05.1 8.44 b -51 +16 -54 BD+67 552 G234-038 251 V254 NN 3507 08 31 59 -00 33.2 0.210 271.6 G5 7.32 047. 05. o 5.68 c 72760 BD- 0 2024 Gl 310.1A 08 33 12 +06 47.7 0.178 229.4 +26.6 SB F8 V 5.99 +0.52 +0.04 043.7 07.0 043.7 07.0 4.19 d -22 -24 -5 72945 BD+07 1997 Gl 310.1B 08 33 12 +06 47.9 0.194 224.3 +29.2 G5 IV-V 7.25 +0.71 +0.27 043.7 07.0 043.7 07.0 5.45 d -23 -27 -5 72946 NN 3508 08 34 20 +15 19.0 0.897 188.0 k 11.8 * +1.04 065. 13. r 10.9 * d G009-011 2029 LTT 12243 Gl 311 08 34 47 +65 11.7 0.089 344.5 -12.7 G1 V 5.64 +0.62 +0.07 +0.21t 072.2 08.2 072.2 08.2 4.93 c +10 +0 -10 72905 BD+65 643 PI(1) Uma Wo 9273 08 35 24 -06 37.9 0.280 275.5 G0 6.75 +0.66 +0.19 041.3 11.9 045. 06. r 5.02 c 73350 BD-06 2664 LTT 3193 Gl 312 08 35 31 -39 58.3 0.304 274.5 -1.5 G4 IV-V 6.54 +0.60 +0.12 +0.20 058.0 15.3 058.0 15.3 5.4 e -16 +4 -18 73524 CD-39 4574 NN 3509 08 36 29 +67 50.3 0.723 245.2 m 14.68 +1.68 041.5 05.5 041.5 05.5 12.77 c G234-043 2038 LP 60-100 USNO 711 Gl 314 A 08 36 57 -22 29.4 0.494 331.0 +47.7 SB G3 V 5.28 +0.73 J+0.35 J+0.23 J 063.3 07.9 063.3 07.9 4.29 c -52 -27 +14 73752 BD-22 2345 5139a ADS 6914 V(AB) = 5.04 d(m) = 1.30 Gl 314 B 08 36 57 -22 29.4 0.494 331.0 K0 V 6.8 * 063.3 07.9 063.3 07.9 5.8 * c a = 1.888" P = 140.0 yr Gl 315 08 37 07 +11 42.4 0.519 192.1 -13.4 K1 V 7.64 +0.82 +0.46 +0.31 050.7 06.9 050.7 06.9 6.17 c +20 -33 -32 73667 BD+12 1888 G009-013 2033 NN 3510 A 08 37 07 +09 06.8 0.285 320. m+ 12.93 +1.58 +1.29 040. 07. r 10.94 d G052-023 NN 3511 B 08 37 07 +09 06.8 0.285 320. m+ 12.96 +1.05 040. 07. r 10.97 d LP 485-38 sep 7" 85d GJ 1113 s 08 37 15 +43 17.8 0.347 208.5 +56.1 K2 V O 9.32 +1.08 +0.96 +0.40 062.9 09.2 062.9 09.2 8.31 d -54 -20 +23 73554 BD+43 1844 G115-016 V256 Wolf 318 NN 3512 08 37 21 +59 41.6 1.310 191.2 m 15.05 +1.93 +1.54 +1.62 100.2 03.9 100.2 03.9 15.05 a G234-045 252 LP 90-18 Gl 316 p 08 37 32 -06 17.7 0.167 138.8 -6. dM0 M 9.90 +1.39 +1.22 +0.62 034.8 06.5 052. 08. r 8.48 d +16 -4 +0 BD-05 2603 V529 Gl 316.1 x 08 37 42 +18 35.0 0.908 240.0 m 17.68 +2.02 +1.74C 064.5 15.8 064.5 15.8 16.7 e 2034 LP 425-140 Gl 317 08 38 49 -23 17.3 0.930 329.2 -53. m 11.98 +1.52 +1.17 101.3 27.0 087. 17. r 11.68 d -25 +69 -5 2037 L 675-081 Gl 318 08 39 36 -32 46.9 1.709 322.0 +58.0 DA6 11.88 +0.22 -0.59 +0.04 112.3 07.2 112.3 07.2 12.13 b -73 +7 +1 CD-32 5613 253 W062 Gl 318.1 s 08 39 58 +44 40.6 0.468 241.9 M1.5: K 14.11 +1.63 +1.03 047.2 10.2 047.2 10.2 12.48 d G115-020 6 Wolf 321 Gl 319 A 08 40 02 +09 44.7 0.673 162.4 +20.4 SB? M0 J K 9.70 +1.41 J+1.27 J+0.73 J 066.8 02.3 066.8 02.3 8.82 a +11 -51 +4 BD+10 1857 G046-001 2042 V257 V(AB) = 9.65 d(m) = 3.2 Gl 319 B 08 40 02 +09 44.7 0.673 162.4 13.1 * 066.8 02.3 066.8 02.3 12.2 * b sep(AB) 2" Gl 319 C 08 40 09 +09 44.5 0.673 162.4 +22.4 M3.5 K 11.79 +1.54 +1.20 +1.05 066.8 02.3 066.8 02.3 10.91 a +10 -52 +5 G046-002 2043 sep(AB-C) 115" 96d (LHS) Gl 319.1A 08 40 22 -42 44.9 0.290 251.1 +23.2 K1 V 8.12 +0.90 +0.64 +0.36 048.8 13.6 042. 06. r 6.24 d -14 -21 -31 74385 CP-42 2834 U188 LDS 230 Gl 319.1B 08 40 22 -42 45.6 0.306 254. M1 : K 12.68 +1.52 +1.52 +1.00 048.8 13.6 042. 06. r 10.80 d L 387-60 sep 45" 188d NLTT Gl 320 08 41 26 -38 42.4 0.452 318.1 +14.3 K1 V 6.56 +0.93 +0.66 +0.30 095.9 08.2 095.9 08.2 6.47 b -25 -10 -1 74576 CD-38 4789 U189 Gl 321 s 08 41 53 +41 51.8 0.711 203.5 -24.6 K3 V 8.58 +0.94 +0.73 +0.35 056.3 07.4 056.3 07.4 7.33 c +2 -53 -37 74377 BD+42 1922 G115-023 2047 V881 NN 3513 08 41 57 -10 12.9 0.605 148.8 m 14.0 * +1.23 045. 08. r 12.3 * d 2046 LP 726-6 Gl 321.1 08 42 37 -42 28.0 0.024 294.3 -2.3 G5 III 4.06 +0.87 +0.52 048.8 15.3 048.8 15.3 2.5 e -2 +3 -1 74772 CD-42 4569 Gl 321.2 08 42 58 -42 26.9 0.294 178.9 +5.0 G5 V 7.21 +0.74 +0.29 +0.23 046.0 20.5 040. 06. r 5.22 d +27 -9 -21 74842 CD-42 4577 Gl 321.3A 08 43 19 -54 31.5 0.082 164.6 +2.2 A0 V 2.02 +0.04 J+0.07 J-0.07 J 049.8 07.3 049.8 07.3 0.51 d +7 -2 -3 74956 CP-54 1788 DEL Vel V(AB) = 1.96 d(m) = 3.0 Gl 321.3B 08 43 19 -54 31.5 0.082 164.6 5.0 * 049.8 07.3 049.8 07.3 3.5 * d sep(AB) 2.6" 175d - 2.6" 153d (1894-1952) Gl 321.3C 08 43 26 -54 30.9 0.08 164. 11.0 * 049.8 07.3 049.8 07.3 9.5 * d sep(AC) 69.2" 61d (1879-1913) Gl 321.3D 08 43 26 -54 30.9 0.08 164. 13.5 * 049.8 07.3 049.8 07.3 12.0 * d sep(CD) 6.2" 102d (1930-1935) NN 3514 08 44 22 +61 20.5 0.585 136.9 m 15.17 +1.82 +1.51 060. 23. r 14.1 f G234-047 2051 LP 90-39 NN 3515 08 47 13 +53 05.1 0.259 248. m 15.40 +1.78 +1.31 046. 17. r 13.7 f G194-043 Gl 322 08 47 34 +66 19.1 0.142 43.6 -20.9 dM0 M 9.28 +1.34 +1.22 +0.57 057.4 04.8 057.4 04.8 8.07 b +23 -2 -8 BD+66 582 V531 NN 3516 08 47 52 +35 00.7 0.061 240.4 G0 7.60 043. 05. o 5.77 c 75404 BD+35 1880 Gl 323 A 08 48 02 +08 03.1 0.06 270. -10.0 dM0 pJ M 9.77 +1.36 J+1.20 J+0.62 J 058.8 12.5 054. 08. r 8.43 d +3 +6 -9 BD+08 2131 V534 ADS 7044 V(AB) = 9.07 d(m) = 0.1 Gl 323 B 08 48 02 +08 03.1 0.06 270. 9.9 * 058.8 12.5 054. 08. r 8.6 * d sep 1.9" 84d - 2.6" 121d (1912-65) GJ 1114 08 48 57 +18 18.9 0.893 265.6 M2 K 11.54 +1.48 +0.89 061.0 03.4 061.0 03.4 10.47 b G009-028 2060 Ross 622 Gl 324 A 08 49 37 +28 31.4 0.528 243.9 +27.2 G8 V 5.95 +0.86 +0.62 +0.26 076.4 03.7 076.4 03.7 5.37 b -37 -18 -9 75732 BD+28 1660 2062 Gl 324 B 08 49 42 +28 30.5 0.538 243.7 +25.2 M3.5 K 13.14 +1.64 +1.20 +1.30 076.4 03.7 076.4 03.7 12.56 b -36 -18 -10 G047-009 2063 GJ 1115 08 50 40 +35 25.0 0.350 213.1 +44.7 dM0 W 9.30 +1.14 +1.10 +0.48 041.1 13.6 045. 07. r 7.57 d -46 -34 +9 BD+35 1890 G051-029 V258 Gl 325 A 08 50 44 +70 59.4 1.386 255.2 +44.3 K5 V 8.70 +1.39 J+1.25 J+0.63 J 088.4 03.3 088.4 03.3 8.43 a -83 +9 -24 75632 BD+71 482 G252-024 256 V532 ADS 7067 V(AB) = 8.03 d(m) = 0.18 Gl 325 B 08 50 44 +70 59.4 1.407 254.1 +44.3 K6 V 8.9 * 088.4 03.3 088.4 03.3 8.6 * b -84 +8 -24 257 a = 5.73" P = 680 yr NN 3517 08 51 07 -03 17.9 0.576 250.2 m 18.80 116.8 01.5 116.8 01.5 19.14 a 2065 LP 666-9 Gl 326 A 08 51 42 -12 55.6 0.622 148.2 M6 J K 12.52 +1.61 J +1.10 J 068.7 09.9 068.7 09.9 11.70 d 2069 LP 726-18 L 820-019 V(AB) = 11.91 d(m) = 0.3 Gl 326 B 08 51 42 -12 55.6 0.622 148.2 12.8 * 068.7 09.9 068.7 09.9 12.0 * d 2070 LP 726-19 sep 2" 75d d(R) = 0.5 ,d(pg) = 0.5 (LHS) Gl 327 08 51 50 -05 14.6 0.414 273.6 +31.8 G3 V 6.00 +0.67 +0.21 +0.21 088.6 06.5 088.6 06.5 5.74 b -32 -21 -3 76151 BD-04 2490 Gl 328 08 52 32 +01 45.1 1.066 176.7 -3.1 dM1 W 9.99 +1.40 +1.23 +0.68 064.3 05.9 064.3 05.9 9.03 c +41 -58 -33 BD+02 2098 G046-009 255 V537 Gl 329 08 52 47 -24 12.3 0.380 290.8 +63.3 K2/3 III 8.66 +1.00 +0.86: +0.44C 065.3 13.6 065.3 13.6 7.73 d -45 -52 +1 76378 CD-23 7884 NN 3518 08 53 10 -23 40.8 0.596 274.4 m 14.0 * +1.38 082. 12. r 13.6 * d 2071 LP 844-28 NN 3519 08 53 47 -54 46.3 0.092 153.1 -2.0 F6 V 5.71 +0.48 +0.00 041. 05. r 3.77 c +10 +3 -2 76653 CP-54 1925 Gl 330 08 54 21 +11 50.7 0.335 186. -12.1 dM5 M 10.60 +1.53 +1.21 +0.84 065.5 05.7 065.5 05.7 9.68 b +15 -15 -17 BD+12 1944 G041-009 V260 NN 3520 08 54 39 +73 09.4 0.893 90.4 m 14.32 +1.70 +1.25 072.8 05.8 072.8 05.8 13.63 b G252-025 2088 LP 36-98 USNO 713 NN 3521 08 55 10 -71 24.4 0.544 334.2 m 14.5 * +1.26 041. 07. r 12.6 * d 2072 LTT 3305 L 63-18 GJ 1116 A 08 55 27 +19 57.4 0.874 267.7 -34. m 14.06 +1.84 +1.76 J 191.3 02.5 191.3 02.5 15.47 a +10 +13 -37 G009-038 2076 GJ 1116 B 08 55 27 +19 57.5 0.874 267.7 m 14.92 +1.93 191.3 02.5 191.3 02.5 16.33 a 2077 LP 426-40 sep 4.5" 333d angles increasing 1d /yr (LHS) Gl 330.1 08 55 44 +20 44.6 0.677 105.6 -50.8 dK5 W 9.26 +1.11 +1.01 +0.48 039.1 05.6 039.1 05.6 7.22 d +93 -6 +23 BD+21 1949 G009-039 2078 V261 Gl 331 A 08 55 48 +48 14.4 0.500 242.4 +9.0 SB A7 IV 3.14 +0.19 +0.08 071.3 08.2 071.3 08.2 2.41 c -28 -13 -16 76644 BD+48 1707 2084 ADS 7114 IOT UMa Gl 331 B 08 55 48 +48 14.4 0.500 242.4 +15.0 dM1 J W 10.8 * 071.3 08.2 071.3 08.2 10.1 * c -32 -12 -12 2083 AB: a = 9.092" P = 817.91 yr Gl 331 C 08 55 48 +48 14.4 0.500 242.4 11.0 * 071.3 08.2 071.3 08.2 10.3 * c BC: a = 0.68" P = 39.69 yr GJ 1117 08 56 11 +33 08.8 0.314 271. DQ6 15.18 +0.01 -0.92 049.2 03.4 049.2 03.4 13.64 b G047-018 W182 NN 3522 08 56 14 +08 40.4 0.459 134.2 k 10.89 +1.67 +1.21 +1.27 224. 36. r 12.64 d G041-014 6 LTT 12352 NN 3523 p 08 56 23 -15 56.5 0.318 49.0 +120.8 F6 V 5.83 +0.53 +0.08 +0.23 025.5 13.5 060. 05. s 4.72 b -49 -94 +63 76932 BD-15 2656 LTT 3317 GJ 1118 08 56 58 -31 01.0 1.005 136.6 +50. k-m 13.80 +1.64 +1.20 +1.29 062. 11. r 12.76 d +62 -66 +13 258 GJ 1119 08 57 11 +46 47.3 0.712 221.0 m 13.32 +1.72 +1.36 096.6 02.7 096.6 02.7 13.24 a G115-042 2092 Gl 332 A 08 57 24 +41 58.9 0.506 240.2 +27.1 SB F3 V 4.11 +0.37 +0.02 066.3 06.1 066.3 06.1 3.22 c -42 -17 -6 76943 BD+42 1956 2093 Kpr 37 Gl 332 B 08 57 24 +41 58.9 0.506 240.2 G5 V 6.18 +0.65 +0.19 066.3 06.1 066.3 06.1 5.29 c NN 3524 s 08 57 26 +48 38.0 1.130 193.3 k-m 14.13 +1.70 +1.18 050.7 03.3 050.7 03.3 12.66 b G194-050 259 NN 3525 08 57 34 -27 37.2 0.068 219.7 +63.2 G5 V 6.87 +0.69 +0.26 046. 08. r 5.18 d -17 -61 +6 77137 CD-27 6141 Gl 333 08 57 52 -47 15.0 0.847 323.6 +22. M3 K 12.19 +1.56 +1.34: +0.91: 072.8 18.8 072.8 18.8 11.5 e -56 -20 +4 2085 L 316-062 Gl 333.2A 08 58 11 +05 26.6 0.305 230. -37.1 dM4 W 12.34 +1.45 +1.07 +1.08 042.0 05.1 042.0 05.1 10.46 c +15 +5 -48 G046-015 Ross 686 Gl 333.2B 08 58 13 +05 26.4 0.305 230. -37.0 dM4 W 12.68 +1.47 +1.08 +1.12 042.0 05.1 042.0 05.1 10.80 c +15 +5 -48 G046-016 Ross 687 Gl 333.1 08 58 11 -58 53.5 0.327 327.5 +11.4 F3 V 5.16 +0.42 -0.02: 053.0 07.2 053.0 07.2 3.78 c -27 -15 +2 77370 CP-58 1327 NN 3526 08 58 19 +68 15.2 0.419 31. m 12.65 +1.22 098.3 07.0 098.3 07.0 12.61 b G234-053 LP 60-179 GJ 1120 A 08 58 31 +15 28.0 0.343 201.5 -12.0 K5 K 9.43 +1.30 J+1.22 J+0.55 J 055.0 08.0 055.0 08.0 8.13 d +10 -19 -24 77175 BD+15 1957 G009-043 V264 ADS 7139 V(AB) = 8.71 d(m) = 0.1 GJ 1120 B 08 58 31 +15 27.9 0.388 196.7 -12.7 K5 9.49 055.0 08.0 055.0 08.0 8.19 d +12 -23 -25 LTT 12364 sep 4.1" 210d - 5.2" 189d (1830-1955) NN 3527 08 58 36 +02 08.4 0.384 258. k 11.82 +1.50 +1.19 049. 23. r 10.3 f G046-017 LTT 12366 Ross 625 NN 3528 08 59 37 +08 40.1 0.600 106.2 k 11.75 +1.45 +1.10 +1.02 060. 12. r 10.64 d G041-018 2094 LTT 12371 NN 3529 09 00 26 +73 27.1 0.560 215.7 DC9 16.97 041. 05. w 15.03 c G252-027 2101 W349 LP 36-115 Gl 333.3 09 01 40 -66 11.8 0.099 179.0 5.9 SB A5 V 4.01 +0.14 +0.13 +0.07C 049.4 15.3 049.4 15.3 2.5 e +8 -3 -7 78045 CP-65 1065 ALF Vol NN 3530 09 02 29 +03 02.0 0.306 278. m 11.61 +0.94 054. 10. r 10.27 d G114-033 LTT 12385 L 1036-8 LP 546-48 NN 3531 09 03 31 +13 03.8 0.392 224. m 13.31 +1.17 050. 10. r 11.80 d G009-046 LTT 12392 L 1180-118 LP 486-49 Gl 334 09 04 20 -08 36.5 0.376 305.8 +37.1 SB? dM0 M 9.51 +1.42 +1.26 +0.68 074.0 04.2 074.0 04.2 8.86 b -39 -19 +9 BD-08 2582 G114-035 V538 NN 3532 09 04 24 +66 47.8 0.317 118. m 12.96 +1.08 043. 09. r 11.13 d G234-056 LP 60-205 NN 3533 09 04 49 -21 56.4 0.513 215.9 k-m 14.3 * +1.42 082. 12. r 13.9 * d 2106 LP 845-23 NN 3534 09 05 21 +51 48.5 0.142 255.8 -0.1 A m 4.48 +0.27 +0.12 045. 05. o 2.75 c -10 -3 -10 78209 BD+52 1365 BS 3619 Gl 334.1 s 09 05 22 +73 36.9 0.318 210. -27. K7 K 10.17 +1.26 +1.28 048.6 07.2 048.6 07.2 8.60 d -4 -37 -18 BD+73 447 G252-028 Gl 334.2 09 05 47 +34 05.2 0.222 237.6 +26.8 F9 V 5.93 +0.60 +0.04 052. 08. r 4.51 d -30 -14 +4 78366 BD+34 1949 Wo 9286 09 05 51 +26 50.2 0.396 199.8 +10.4 SB G5 IV 5.99 +0.65 +0.20 +0.23 041.5 08.5 041.5 08.5 4.08 d -10 -44 -12 78418 BD+27 1715 LTT 12402 Gl 335 A 09 06 01 +67 20.4 0.099 188.1 -2.9 F7 IV-V 4.84 +0.49 J+0.02 J 054.0 13.6 054.0 13.6 3.5 e -2 -9 +0 78154 BD+67 577 ADS 7203 13 SIG(2) UMa V(AB) = 4.81 d(m) = 3.65 Gl 335 B 09 06 01 +67 20.4 0.099 188.1 K2 V 8.44* 054.0 13.6 054.0 13.6 7.1 * e a = 6.20" P = 1067.1 yr GJ 1121 09 06 14 +40 18.7 0.806 223.8 m 14.55 +1.82 +1.27 045.9 03.4 045.9 03.4 12.86 b G115-057 2111 NN 3535 s 09 06 26 -10 33.2 0.383 253.2 G4 K 7.15 +0.61 +1.68C 039.2 13.6 033. 04. r 4.74 c 78612 BD-10 2754 LTT 3364 Wo 9287 A s 09 06 26 -25 38.2 0.331 268.1 +36.1 G1 V 6.77 +0.57 +0.03 043.4 15.3 034. 05. r 4.43 d -41 -33 -26 78643 CD-25 6905 LTT 3365 Wo 9287 B s 09 06 26 -25 38.2 0.331 268.1 13. * 043.4 15.3 034. 05. r 11. * e Gl 336 09 06 29 +33 01.9 0.639 210.3 +9.9 dM2 M 9.96 +1.39 +1.23 +0.71 047.2 08.6 047.2 08.6 8.33 d -23 -56 -23 BD+33 1814 G047-026 2113 V540 COU 1561 NN 3536 09 06 46 +84 23.1 0.669 308.5 -28.7 m 11.92 +0.88 039. 07. r 9.88 d -3 +19 -84 G253-021 2123 LP 5-140 NN 3537 09 07 00 +06 54. M4 e 13.35 +1.57 +1.13 042. 08. r 11.47 d NN 3538 09 07 16 +05 24.5 0.084 236.8 K4 s 8.38 +1.01 +0.91 +0.35 044. 05. r 6.60 c 78727 BD+ 5 2131 Steph 753 Gl 336.1 09 08 11 +46 49.4 0.39 267. dM0 M 10.94 +1.44 +0.77 044.2 03.9 044.2 03.9 9.17 b G115-059 V265 AC+47:2368-79 NN 3539 09 09 02 +49 24.9 0.191 195.7 G5 7.68 045. 05. o 5.95 c 78899 BD+49 1815 Gl 336.2A x 09 09 03 -45 06.2 0.18 278. +18.1 K0 V 9.78 +0.78 +0.40 +0.40CJ 045.2 10.2 045.2 10.2 8.06 d -15 -18 -11 79170 CP-44 3489 V(AB) = 9.26 d(m) = 0.5 Gl 336.2B x 09 09 03 -45 06.2 0.18 278. +26.5 K0 V 10.30 +0.91 +0.65 045.2 10.2 045.2 10.2 8.58 d -16 -26 -11 L 317-002 sep 9.0" 281d (1913-1955) NN 3540 09 09 06 +28 07.1 0.484 203.8 m 12.29 +1.56 +1.18 +1.10 062. 13. r 11.25 d G047-028 5146b Gl 337 A 09 09 34 +15 11.9 0.580 293.8 +50.2 SB K0 V J 7.25 +0.73 J+0.25 J+0.26 J 045.6 04.2 045.6 04.2 5.54 c -78 -1 -2 79096 BD+15 2003 2114 V(AB) = 6.50 d(m) = 0.0 Gl 337 B 09 09 34 +15 11.9 0.580 293.8 7.3 * 045.6 04.2 045.6 04.2 5.6 * c a = 0.126" P = 2.65 yr Gl 337.1 09 10 25 +61 37.9 0.033 191.3 -14.6 SB F9 V 5.13 +0.58 +0.10 043.7 08.3 056. 05. s 3.87 b +9 -8 -9 79028 BD+62 1058 Gl 338 A 09 10 59 +52 54.1 1.662 249.6 +13.7 SB M0 Ve 7.62 +1.39 +1.20 +0.68 162.5 02.0 162.5 02.0 8.67 a -43 -14 -21 79210 BD+53 1320 G195-017 260 V541 LFT 634 Gl 338 B 09 11 01 +52 54.2 1.690 246.9 +14.7 SB M0 Ve 7.71 +1.42 +1.25 +0.69 162.5 02.0 162.5 02.0 8.76 a -44 -16 -20 79211 BD+53 1321 G195-018 261 LFT 635 Gl 338.1A s 09 11 57 +77 27.2 1.055 269.5 -4. K5 J K 10.67 +1.38 J+1.22 J+0.62 J 041.6 03.7 041.6 03.7 8.77 b -81 -4 -88 BD+77 361 G252-030 264 V118 Kui 39 V(AB) = 10.06 d(m) = 0.24 Gl 338.1B s 09 11 57 +77 27.2 1.055 269.5 11.0 * 041.6 03.7 041.6 03.7 9.1 * c a = 0.58" P = 70.0 yr Gl 339 AB 09 12 17 +04 39.0 0.106 279.8 +16.2 dK5 M 8.04 +1.02 J+0.85 J+0.45 J 048.9 05.3 048.9 05.3 6.49 c -17 -8 +2 79555 BD+05 2143 V542 orb Heintz AJ 94: sep 0.7": d(m) = 3. :, V(AB) = 7.97 Gl 339.1 09 12 29 +53 38.9 1.550 223.5 DXP7 13.85 +0.34 -0.52 096.7 01.8 096.7 01.8 13.78 a G195-019 262 W250 NN 3541 09 12 36 +54 13.8 0.075 39.3 -18.7 SB A5 V 4.83 +0.19 +0.08 040.7 11.9 040.7 11.9 2.9 e +18 +3 -10 79439 BD+54 1285 FK 2734 Gl 339.3 09 13 45 -37 12.2 0.022 105.6 +5.8 F5 III 4.62 +0.45 +0.10 062.5 13.6 062.5 13.6 3.60 d +1 -6 +2 79940 CD-36 5505 K Vel NN 3542 09 14 02 +58 38.9 1.134 180.6 m 15.11 +1.85 +1.43 064.8 04.0 064.8 04.0 14.17 b G195-022 265 NN 3543 09 14 05 -18 25.0 0.339 297. M2 s 10.75 +1.55 +0.93 080. 15. r 10.27 d LTT 3412 L 749-34 LP 787-52 NN 3544 09 14 06 +00 56.3 0.093 258.3 F6 III-IV 6.71 +0.41 +0.05 039.3 15.3 039.3 15.3 4.7 f 79873 BD+01 2267 ADS 7276 sep 2" d(m) = 5.5 Gl 340 A 09 14 56 +28 46.7 0.516 174.0 -19.1 K3 V 7.86 +1.00 J+0.82 J+0.37 J 058.2 02.9 058.2 02.9 6.68 b +23 -36 -16 79969 BD+29 1883 2125 ADS 7284 V(AB) = 7.21 d(m) = 0.22 Gl 340 B 09 14 56 +28 46.7 0.516 174.0 K3 V 8.1 * 058.2 02.9 058.2 02.9 6.9 * b a = 0.660 P = 34.20 yr NN 3545 09 15 22 -61 52.3 0.923 314.4 m 12.7 * +1.14 059. 12. r 11.6 * d 2122 LTT 3423 L 140-119 NN 3546 09 15 25 +27 31.2 K5 s 9.55 +1.34 +1.26 +0.56 052. 08. r 8.13 d BD+27 1739 Steph 762 NN 3547 09 15 29 +62 16.2 0.425 217.2 m 11.28 +0.80 042. 07. r 9.40 d G235-020 6 LP 91-14 NN 3548 A 09 15 51 +26 58.1 0.382 210. k-m 11.77 +1.50 +1.23 050. 24. r 10.3 f G047-033 LTT 12449 NN 3549 B 09 15 46 +26 58.8 0.382 210. m 16. * 050. 24. r 14. * f LP 313-38 sep 76" 302d GJ 1122 A 09 16 12 +38 44.0 0.250 272. m 14.52 +1.68 +1.34 049.6 02.7 049.6 02.7 13.00 b G115-068 GJ 1122 B 09 16 12 +38 44.1 0.250 272. m 14.67 +1.68 +1.35 049.6 02.7 049.6 02.7 13.15 b G115-069 sep 9" 180d (Giclas) NN 3550 09 16 33 +73 19.8 0.996 249.8 m 15.02 +1.90 087. 35. r 14.7 f G252-033 2126 LP 36-181 Gl 340.1A s 09 16 36 -68 28.7 0.108 247.0 +32.3 F4 V 6.13 +0.42 J-0.04 J+0.25CJ 056.5 13.6 028. 03. r 3.37 c +1 -28 -24 80671 CP-68 918 BS 3712 V(AB) = 5.39 d(m) = 0.0 Gl 340.1B s 09 16 36 -68 28.7 0.108 247.0 6.13* 056.5 13.6 028. 03. r 3.37* c a = 0.124" P = 3.20 yr, sep(AC) 18.1" 132d (1901) NN 3551 p 09 16 44 -57 34.0 0.484 346.7 +24. K7 V U 9.52 +1.19 +1.00 +0.54 029.5 11.4 047. 08. r 7.88 d -38 -32 +23 80545 CD-57 2585 5149 U202 CP-57:1976 LTT 3433 Gl 340.2 09 16 54 +01 06.6 0.199 225.0 +47.5 K0 H 8.16 +0.87 +0.61 +0.43C 050.0 13.6 040. 06. r 6.17 d -29 -44 +6 80367 BD+01 2277 NN 3552 09 17 22 +26 56.9 1.007 120.8 -7. m 15.56 +1.92 048.3 07.8 048.3 07.8 13.98 d +75 -45 +47 266 LP 313-42 USNO 714 GJ 1123 09 17 32 -77 37.0 1.023 139.3 0. m 13.10 +1.64 +1.15 +1.39 123. 19. r 13.55 d +36 +15 +0 263 Gl 340.3 09 18 16 -05 32.4 0.373 251.4 +36.5 dK8 M 9.09 +1.16 +1.13 +0.44 049.3 18.5 044. 05. r 7.31 c -37 -36 -15 80632 BD-05 2778 G161-015 V544 NN 3553 09 18 21 +03 35.8 1.178 163.2 m 13.33 +1.60 +1.38 +1.10 060.8 4.2 060.8 4.2 12.25 b G046-034 267 LTT 12460 USNO 715 NN 3554 09 18 36 +43 43.3 0.309 250. m 14.02 +1.29 058. 10. r 12.84 d G115-071 GJ 1124 09 19 17 +40 25.2 0.507 223.0 -43.0 SB K2 V 7.63 +0.99 +0.76 054.1 07.6 054.1 07.6 6.30 d +10 -32 -52 80715 BD+40 2197 G116-023 2131 Gl 341 09 20 24 -60 04.2 0.879 282.6 +36.2 M0 V U 9.50 +1.48 +1.18 +0.78 099.4 23.5 099.4 23.5 9.5 e -29 -38 -27 304636 CP-59 1362 2128 U204 CD-59:2351 LTT 3453 L 140-9 Gl 341.1 09 21 06 +80 48.2 0.446 179.1 -21.4 K5 K 9.30 +1.23 +1.21 +0.46 058.1 06.8 058.1 06.8 8.12 c -3 -42 +6 BD+81 297 G253-026 V119 NN 3555 09 21 19 +00 21.4 0.300 227. M3: L 11.54 +1.51 +1.23 059. 28. r 10.4 f G048-010 LTT 12478 L 1038-40 LP 607-39 Gl 342 09 21 35 +76 09.1 0.360 254.9 -5.9 dK5 e W 9.03 +1.19 +1.18 +0.46 057.6 17.0 048. 08. r 7.44 d -25 -12 -23 80768 BD+76 351 G252-034 V543 Gl 343 s 09 22 49 +18 53.5 0.538 236.0 +1.0 M2 K 13.43 +1.61 +0.94 060.5 17.0 023. 05. r 10.24 d -48 -61 -79 G041-037 2141 Ross 83 NN 3556 09 24 07 +50 52.4 0.228 235. m 11.93 +0.95 048. 09. r 10.34 d G195-027 Gl 343.1 09 24 20 +39 43.5 0.19 133. -21. dK8 e M 9.84 +1.29 +1.17 +0.55 044. 06. r 8.06 c +26 -13 -5 BD+40 2208 V267 NN 3557 09 25 12 +13 58.1 0.067 232.0 G5 7.81 049. 05. o 6.26 c 81762 BD+14 2097 Gl 344 A q 09 25 18 -05 51.1 0.240 251.0 +55.9 SB G2 V J 5.80 +0.65 J+0.12 J+0.24 J 032.0 10.6 054. 05. s 4.46 c -35 -47 +11 81809 BD-05 2802 BS 3750 V(AB) = 5.38 d(m) = 0.8 , SBO (A&A 195,129) Gl 344 B q 09 25 18 -05 51.1 0.240 251.0 +53.7 6.6 * 032.0 10.6 054. 05. s 5.3 * c -34 -45 +10 sep 0.2" 319d - 0.4" 153d (1938-60) Gl 346 p 09 26 24 -09 02.8 0.05 158. dM0 M 10.52 +1.43 +1.02: +0.72 009.2 13.8 049. 08. r 8.97 d BD-08 2689 V268 Gl 347 A 09 26 25 -07 08.5 0.692 193.8 +8.5 M3.5 K 12.08 +1.53 +1.11 +1.04 059.8 04.7 059.8 04.7 10.96 b +16 -42 -33 G161-033 2145 Ross 439 Gl 347 B 09 26 28 -07 08.5 0.692 193.8 m 15.00 +1.87 +1.25 +1.73C 059.8 04.7 059.8 04.7 13.88 b G161-034 2146 Gl 348 A 09 26 37 -02 33.0 0.134 104.2 +10.8 SB F6 V 4.60 +0.45 +0.00 +0.26C 070.4 06.9 070.4 06.9 3.84 c +2 -9 +11 81997 BD-02 2901 Gl 348 B 09 26 37 -02 31.9 0.146 103.1 +11.5 K0 K 7.18 +0.87 +0.57 070.4 06.9 070.4 06.9 6.42 c +3 -9 +12 BD-02 2902 NN 3558 09 26 53 +39 50.7 0.244 145. m 12.13 +1.03 054. 11. r 10.79 d LP 211-12 Wo 9299 09 27 07 -05 09.2 0.489 274.3 K7 s 9.74 +1.31 +1.30 +0.54 045. 06. r 8.01 c BD- 4 2639 G161-038 5153 V546 LTT 3488 Gl 349 09 27 19 +05 52.4 0.519 281.9 +27.6 K3 Ve 7.20 +1.00 +0.90 +0.37 088.6 13.1 088.6 13.1 6.94 d -37 -13 +1 82106 BD+06 2182 2147 NN 3559 09 27 37 +63 16.9 0.111 76.8 -10.4 F0 IV 3.67 +0.33 +0.10 +0.18 039.8 07.8 039.8 07.8 1.67 d +17 +0 +1 81937 BD+63 845 GJ 1125 09 28 12 +00 33.0 0.790 228.3 -40. M3.5 K 11.71 +1.59 +1.22 +1.14 098.4 03.2 098.4 03.2 11.67 a +11 +6 -54 G048-020 2149 GJ 1126 A 09 28 20 -31 53.2 0.331 344.6 K3 V U 8.38 +0.98 +0.69 +0.42 045. 06. r 6.65 c 82342 CD-31 7352 U209 LTT 3494 L 534-025 GJ 1126 B 09 28 20 -31 53.2 0.393 349. g 13.08 +1.46 +0.97 +1.10 045. 06. r 11.35 c U209 LP902-30 Gl 351.1 09 28 44 +20 30.8 0.800 178.5 M3 K 12.20 +1.48 +0.96 049.3 10.2 049.3 10.2 10.66 d G041-043 2154 Ross 84 Gl 351 A 09 28 44 -40 14.8 0.201 290.1 +8.8 F3 IV 4.12 +0.36 J-0.03 J+0.22CJ 064.2 05.1 064.2 05.1 3.16 b -14 -9 -5 82434 CD-39 5580 PSI Vel V(AB) = 3.60 d(m) = 0.66 Gl 351 B 09 28 44 -40 14.8 0.201 290.1 F0 IV 4.65* 064.2 05.1 064.2 05.1 3.69* b a = 0.795" P =33.99 yr Gl 352 A 09 28 53 -13 16.1 0.731 85.4 +7.3 M3 J K 10.81 +1.53 J+1.16 J+1.04 J 107.9 09.1 107.9 09.1 10.98 b +19 -3 +27 BD-12 2918 2151 V026 Kui 41 V(AB) = 10.06 d(m) = 0.0 Gl 352 B 09 28 53 -13 16.1 0.731 85.4 10.8 * 107.9 09.1 107.9 09.1 11.0 * b a = 0.551" P = 18.3 yr Gl 353 09 28 54 +36 32.9 0.584 200.9 +20.1 dM2 W 10.19 +1.50 +1.26? +0.78 065.5 03.6 065.5 03.6 9.27 b -21 -42 +3 BD+36 1970 G116-036 2155 V548 Gl 354 A 09 29 31 +51 54.4 1.095 240.4 +15.3 SB F6 IV 3.17 +0.46 +0.02 +0.16 069.1 08.4 069.1 08.4 2.37 c -61 -37 -27 82328 BD+52 1401 270 THE Uma Gl 354 B 09 29 31 +51 54.4 1.095 240.4 13.8 * 069.1 08.4 069.1 08.4 13.0 * c Gl 354.1A 09 29 50 +27 12.8 0.292 209.6 +9.3 dG9 W 7.01 +0.77 +0.33 053.6 15.3 053. 09. r 5.63 d -11 -25 -5 82443 BD+27 1775 Gl 354.1B 09 29 54 +27 13.2 0.274 210. m 16.5 P 053.6 15.3 053. 09. r 15.1 P d LP 314-20 sep 65" 67d (NLTT) Gl 355 09 30 01 -10 57.8 0.253 274.1 +10.9 K0 H 7.82 +0.92 +0.54 +0.51C 062.3 13.4 052. 08. r 6.40 d -22 -9 -9 82558 BD-10 2857 G161-045 pit Heintz AJ 101 Gl 355.1 09 30 06 +70 03.1 0.098 319.3 -28.1 G4 III-IV 4.56 +0.77 +0.34 040.4 08.5 040.4 08.5 2.59 d +14 -6 -26 82210 BD+70 565 Gl 355.2 09 30 54 -20 53.6 0.027 293.6 +16.3 K0 IV 5.01 +1.02 +0.87 +0.44C 050.6 17.0 050.6 17.0 3.5 e -7 -14 +5 82734 BD-20 2936 NN 3560 09 31 26 +61 28.0 M3 s 11.95 +1.54 +1.21 +0.97 051. 10. r 10.49 d Steph 785 Gl 356 A 09 32 40 +36 02.2 0.775 251.4 +14.9 G8 V 5.41 +0.77 +0.44 +0.26 087.0 08.5 087.0 08.5 5.11 c -38 -17 -16 82885 BD+36 1979 2156 Gl 356 B 09 32 40 +36 02.2 0.775 251.4 13.0 * 087.0 08.5 087.0 08.5 12.7 * c a = 3.84" P = 201 yr Heintz AJ 94, p 1077 Wo 9303 09 33 12 +37 45.2 0.105 224. K5 s 11.02 +1.44 +0.73 040. 06. r 9.03 d V549 NN 3561 09 33 38 -05 53.3 0.780 245.1 m 14.0 * +1.20 040. 08. r 12.0 * d G161-051 2158 Gl 357 09 33 43 -21 25.4 0.915 169.4 -78. M3 V 10.92 +1.57 +1.18 +1.00 111.6 16.7 111.6 16.7 11.16 d +49 +53 -49 2157 L 678-039 NN 3562 09 33 57 +40 48.2 0.188 244. m 14.03 +1.24 047. 09. r 12.39 d LP 211-22 GJ 1127 p 09 34 22 +22 55.3 0.231 219.3 -36.9 dM0 W 9.48 +1.28 +1.27 +0.52 007.1 05.7 050. 08. r 7.97 d +17 -5 -39 BD+23 2121 V270 LTT 12540 Ross 89 Gl 358 09 37 49 -40 50.7 0.663 305.0 +142. M3 10.75 +1.53 +1.17 +1.07 097.6 11.0 097.6 11.0 10.70 c -36 -140 +18 CD-40 5404 2166 L 390-5 Gl 359 09 38 11 +22 15.5 0.672 135.1 M4 K 14.23 +1.78 +1.10: +1.38 082.2 05.4 082.2 05.4 13.80 b G049-020 2171 Ross 92 Gl 360 09 38 22 +70 15.9 0.727 246.4 +6.9 M3 K 10.57 +1.50 +1.02 074.1 10.5 074.1 10.5 9.92 d -41 -16 -16 G235-035 2176 V550A AC+70:4336 Gl 361 09 38 30 +13 26.4 0.648 253.5 +11.4 dM2 e W 10.37 +1.50 +1.25 +0.92 080.3 18.4 080.3 18.4 9.89 d -30 -18 -20 G042-017 2173 V551 AC+13:1301-119 Ross 85 LFT 670 Gl 362 09 38 39 +70 16.3 0.727 246.4 +6.0 M3 K 11.22 +1.52 +1.12 090.0 10.9 090.0 10.9 10.99 c -34 -13 -13 G235-036 2178 V550B AC+70:4337 Gl 363 09 38 57 +56 13.2 0.890 235.7 M3.5 K 12.50 +1.53 +1.35? +1.22 069.3 06.8 069.3 06.8 11.70 c G195-036 2175 LTT 12565 GJ 2074 09 39 21 +07 11.0 0.044 201. DA7 14.90 +0.30 -0.55 058. 07. w 13.72 c W431 PG197-4 Gl 364 09 39 59 -23 41.4 0.476 302.6 +35.2 F9 IV 4.93 +0.53 +0.01 +0.28C 082.0 21.5 082.0 21.5 4.5 e -34 -28 +8 84117 CD-23 8646 Gl 365 09 40 17 +42 55.9 0.837 177.8 -12.1 K5 V 8.12 +1.15 +1.15 +0.42 050.5 07.3 050.5 07.3 6.64 d +14 -78 -1 84035 BD+43 1953 G116-042 2180 V552 NN 3563 09 40 17 -19 00.2 0.520 243.6 M3 K 11.96 +1.58 +1.03 062. 15. r 10.9 e 2177 LTT 3561 L 750-79 LP 788-24 NN 3564 09 41 05 +27 12.1 0.603 260.8 M3 K 12.05 +1.56 +1.20: +1.15 076. 19. r 11.5 e G049-023 2181 LTT 12583 Ross 93 NN 3565 09 41 18 -06 49.7 0.441 187.5 DA9 16.41 +0.56 -0.30 043. 08. w 14.58 d G161-068 6 W Gl 366 09 41 42 +76 17.3 0.991 173.2 -27.8 M1.5 K 10.62 +1.41 +1.09 +0.86 063.5 04.7 063.5 04.7 9.63 b +0 -75 +25 G252-044 2188 V120 AC+76:3952 GJ 1128 09 41 57 -68 40.3 1.120 356.8 -21. m 12.78 +1.73 +1.22 +1.42 161. 23. r 13.81 d -27 +8 +27 271 Gl 366.1A 09 41 58 -27 32.4 0.059 301.2 +24.0 F6 V 5.45 +0.51 J+0.35 J+0.30CJ 051.2 15.3 052. 09. r 4.03 d -9 -22 +7 84367 CD-27 6881 THE Ant V(AB) = 4.79 d(m) = 0.2 Gl 366.1B 09 41 58 -27 32.4 0.059 301.2 F8 V 5.6 * 051.2 15.3 052. 09. r 4.2 * d a = 0.134" P = 18.32 yr GJ 1129 09 42 32 -17 58.8 1.633 264.0 +9. m 12.60 +1.59 +1.28 +1.27 098. 17. r 12.56 d -57 -19 -52 273 Gl 367 09 42 37 -45 32.3 0.746 217.3 +60.0 M3 K 10.11 +1.53 +1.13 +0.94 108.8 06.7 108.8 06.7 10.29 b +4 -63 -26 CD-45 5378 2182 CP-45:3978 LTT 3579 NN 3566 09 43 40 -04 12.0 0.547 287.6 m 14.15 +1.32 061. 10. r 13.08 d G161-074 2186 NN 3567 09 44 30 +60 29.5 0.888 257.3 M2 L 12.73 +1.64 +1.39 081. 35. r 12.3 f G235-040 2191 LTT 12597 L 1820-21 LP 91-105 NN 3568 09 44 53 +13 10.4 0.246 340. m 13.38 +1.20 054. 10. r 12.04 d LP 488-37 Gl 368 09 45 22 +46 15.3 0.242 113.1 +5.0 G0.5 Va 5.09 +0.62 +0.10 +0.22t 075.3 04.7 075.3 04.7 4.47 b +8 -4 +13 84737 BD+46 1551 NN 3569 09 46 55 +53 29.2 0.268 265. DQ6 15.20 +0.13 -0.70 043.9 03.5 043.9 03.5 13.41 b G195-042 W251 PG Gl 368.1A 09 47 02 -52 23.1 0.358 312.5 +4.4 K1 V 7.93 +0.90 J+0.65 J+0.46CJ 044.5 13.6 045. 08. r 6.20 d -37 -9 +2 85228 CP-52 2830 V(AB) = 7.92 d(m) = 4.1 Gl 368.1B 09 47 02 -52 23.1 0.358 312.5 12.0 * 044.5 13.6 045. 08. r 10.3 * d sep 1.4" 277d (1929-43) Gl 369 09 48 40 -12 04.5 1.791 143.4 +62.2 dM2 W 10.04 +1.48 +1.18 +0.78 084.8 07.6 084.8 07.6 9.68 b +72 -91 +23 BD-11 2741 G161-080 274 V027 LFT 685 Gl 370 09 49 05 -43 15.7 0.649 135.2 -9.6 K5 V 7.64 +1.18 +1.12 +0.50 103.2 09.1 103.2 09.1 7.71 b +29 +10 -4 85512 CP-42 4101 2201 U212 Gl 371 09 49 37 +03 27.4 0.440 270.7 +21.5 VAR dM0 p M 8.86 +1.23 +1.21 +0.47 039.4 04.7 039.4 04.7 6.84 c -51 -19 -19 85488 BD+03 2279 G048-045 V558 NN 3570 s 09 50 04 +03 22.0 0.06 239. +13.0 K4 s 10.58 +1.40 +1.24 +0.63 052.7 08.5 052.7 08.5 9.19 d -8 -11 +4 AC+03:2399-47 VV230 Gl 372 09 50 41 -03 26.9 0.471 191. dM0 M 10.54 +1.52 +1.2 : +0.98 098. 19. r 10.50 d BD-02 3000 G053-013 6 V560 NN 3571 09 51 09 +21 10.6 0.506 320.7 m 14.05 +1.44 098. 15. r 14.01 d G042-024 2206 GJ 1130 A 09 51 17 -31 30.9 0.204 228.9 M0 V 10.21 +1.38 +1.15 +0.68 050. 06. r 8.70 c CD-31 7745 U213 LTT 3630 LDS 290 GJ 1130 B 09 51 17 -31 30.9 0.204 228.9 14.42 +1.70 +1.30 050. 06. r 12.91 c Gl 373 09 52 29 +63 02.0 0.658 207.3 +14.9 dM1 W 9.00 +1.43 +1.19 +0.73 098.3 05.4 098.3 05.4 8.96 b -24 -22 +12 BD+63 869 G235-049 2211 V121 NN 3572 09 52 45 +35 36.1 0.238 190. M4 K 12.73 +1.11 057. 12. r 11.51 d G116-065 LTT 12639 Wolf 330 NN 3573 09 53 40 +22 53.5 0.536 239.9 m 14.2 * +1.33 062. 10. r 13.2 * d G049-032 2212 Gl 374 s 09 54 09 -40 32.9 0.156 243.6 +57.0 K4 V 9.00 +0.96 +0.73 +0.34 067.6 15.3 032. 05. r 6.53 d -9 -60 -10 86249 CP-40 4033 U218 NN 3574 q 09 54 38 +41 17.7 0.122 256.1 -8.9 SB F6 Vas 5.14 +0.46 +0.00 038.7 10.2 050. 06. r 3.63 c -3 -4 -14 86146 BD+41 2033 NN 3575 09 55 00 +24 47.5 0.391 220. +124. DA6 15.09 +0.25 -0.54 041.2 04.5 041.2 04.5 13.16 c -58 -59 +39 G049-033 W069 LTT 12661 NN 3576 09 55 19 +12 02.9 0.467 249.8 m 14.66 +1.31 046. 07. r 12.97 d G042-029 6 LTT 12663 NN 3577 A 09 56 13 +44 05.0 0.228 199. m 13.89 +1.22 045. 06. r 12.16 c G116-072 NN 3578 B 09 56 15 +44 05.0 0.228 199. m 14.16 +1.24 045. 06. r 12.43 c G116-073 sep 23" 91d Gl 375 09 56 34 -46 10.7 0.676 136.1 +44. M3.5 K 11.27 +1.55 +0.91 +1.19 069.1 13.8 069.1 13.8 10.47 d +49 -41 -2 CD-45 5627 2213 LTT 3661 CAZ 60674 CFS 20559 NSV 4689 NN 3579 09 56 35 +47 26.8 0.281 163. m 14.09 +1.25 047. 09. r 12.45 d G146-005 Gl 375.1 x 09 57 02 -49 45.8 0.14 282. +38. 11.68 +0.91 +0.70 +0.51C 044.7 13.6 044.7 13.6 9.9 e -9 -40 -4 CF 7007 NN 3580 p 09 57 13 +24 47.6 0.237 259.5 +13.4 K0 V 7.90v +0.88 +0.43 +0.38 029.7 08.5 048. 09. r 6.31v d -24 -11 -4 86590 BD+25 2191 LTT 12668 Wo 9309 09 57 28 -50 21.3 0.18 289. g-k 12.1 P 041.8 10.2 041.8 10.2 10.2 P e CD-50 4715 CFS 7030 Gl 376 09 58 08 +32 10.2 0.684 230.5 +55.8 G2 Va 5.35 +0.66 +0.27 064.5 06.6 064.5 06.6 4.40 c -57 -45 +20 86728 BD+32 1964 2216 Gl 377 09 59 01 -30 09.5 1.297 297.9 +60. M3 K 11.43 +1.49 +1.10 +1.07 073.3 06.9 073.3 06.9 10.76 c -88 -54 +4 CD-29 8019 277 GJ 2077 09 59 08 +14 55.9 0.314 274. -140. DC7 15.37 +0.36 -0.49 046. 05. w 13.68 c +65 +79 -158 G042-033 W252 LTT 12680 Gl 378 09 59 14 +48 21.1 1.571 203.8 -9.8 dM2 M 10.07 +1.37 +1.13 +0.82 068.0 05.0 068.0 05.0 9.23 b -25 -106 -16 BD+48 1829 G146-006 278 V562 NN 3581 09 59 14 -15 11.0 0.248 279.3 K3 V 8.64 +1.02 +0.75 +0.36 040. 06. r 6.65 d 86972 BD-14 3003 U222 LTT 3676 Gl 378.1 s 09 59 23 +44 49.3 0.290 250.9 +33.5 SB? dK8 M 9.04 +1.07 +0.98 +0.40 052.6 10.2 038. 04. r 6.94 c -47 -14 +8 86856 BD+45 1791 G116-076 V273 NN 3582 09 59 59 +15 13.9 0.279 150. m 14.23 +1.70 056. 23. r 13.0 f G043-023 LTT 12689 NN 3583 10 00 58 +06 12.4 0.659 257.8 m 13.17 +1.13 046. 09. r 11.48 d G043-024 2217 LTT 12693 NN 3584 10 01 56 +05 48.5 M0 s 12.66 +1.50 +1.22 +1.03 042. 08. r 10.78 d Steph 823 NN 3585 10 03 43 +41 57.8 0.557 217.2 M0 K 11.32 +1.49 +1.22 039. 10. r 9.3 e G116-077 2220 LTT 12699 FI-285 GJ 1131 10 04 09 +69 29.4 0.872 269.6 m 14.34 +1.75 056.3 04.6 056.3 04.6 13.09 b G235-055 2222 Gl 378.2 10 04 22 +03 12.6 0.11 218. -15.4 dM0 e M 9.95 +1.39 +1.28 +0.64 042.2 11.9 053. 08. r 8.57 d +5 +2 -17 BD+03 2316 V123 Gl 378.3 10 04 29 +35 29.4 0.052 91.3 -17.6 A7 V 4.48 +0.18 +0.08 047.8 11.9 047.8 11.9 2.9 e +14 +2 -11 87696 BD+35 2110 Wo 9315 10 04 48 -14 03.7 0.123 166. K7 V U 10.19 +1.32 +1.20: +0.59 041. 08. r 8.25 d BD-13 3031 V566 U227 NN 3586 10 06 19 +51 32.4 0.927 209.3 k-m 13.47 +1.66 075.0 03.2 075.0 03.2 12.85 a G195-057 2224 LP 127-132 Gl 379 A 10 06 24 +75 23.0 0.349 40.0 -48.9 dK6 eJ W 10.18 +1.40 J+1.19 J+0.59 J 054.2 07.5 054.2 07.5 8.85 d +48 -5 -31 BD+75 403 G252-049 V565 V(AB) = 9.48 d(m) = 0.24 Gl 379 B 10 06 24 +75 23.0 0.349 40.0 10.3 * 054.2 07.5 054.2 07.5 9.0 * d a = 1.625" P = 192 yr Heintz AJ 94, 1077 (1987) Gl 379.1A 10 07 22 -35 36.7 0.442 271.2 +36.8 F8 V 6.15 +0.60 +0.16 +0.22 046.7 07.8 046.7 07.8 4.50 d -37 -42 -15 88218 CD-35 6194 Gl 379.1B 10 07 22 -35 36.7 0.442 271.2 10.9 * 046.7 07.8 046.7 07.8 9.2 * d Gl 379.2 s 10 07 40 -36 30.8 0.488 319.1 +111.1 G3 V-VI 8.08 +0.60 +0.01: +0.22 046.2 09.4 022. 03. r 4.79 c -102 -101 +52 88261 CD-36 6180 5166a Gl 380 10 08 19 +49 42.5 1.454 248.9 -25.4 K2 Ve 6.59 +1.36 +1.28 +0.60 213.2 02.7 213.2 02.7 8.23 a -9 -20 -35 88230 BD+50 1725 G196-009 280 NN 3587 10 08 48 +35 33.6 0.281 150. M4 K 14.50 +1.27 042. 07. r 12.62 d G118-037 LTT 12734 Wolf 351 Gl 381 10 09 31 -02 25.8 0.829 142.0 +40. dM0 M 10.63 +1.57 +1.20 +1.00 117.3 09.0 117.3 09.0 10.98 b +17 -42 +25 G053-028 2230 V568 L 968-022 LP 609-71 comp.(?) at 25" d(m) = 2. (Worley), no cpm Gl 382 10 09 46 -03 29.7 0.280 214.1 +7.7 dM2 M 9.27 +1.48 +1.19 +0.92 116.7 04.9 116.7 04.9 9.61 a -3 -13 -3 BD-03 2870 G053-029 V569 uncertain comp. 25" d(m) = 1. (Worley) Gl 383 10 09 47 -18 22.2 0.525 270.1 -1.7 K7 V U 9.94 +1.48 +1.23 +0.71 070.4 09.0 070.4 09.0 9.18 c -28 -5 -21 BD-17 3088 2231 V570 Gl 383.1 s 10 10 44 +52 45.9 0.773 173.9 -24.8 dM0 W 9.53 +1.10 +0.94 +0.47 054.6 22.2 038. 06. r 7.43 d +25 -96 +12 233719 BD+53 1395 G196-013 2237 V567 NN 3588 10 10 52 -35 29.8 0.532 292.7 M3.5 K 12.95 +1.08 045. 09. r 11.22 d 2233 LTT 3742 L 464-6 comp B: G opt. Gl 384 A s 10 10 56 -47 13.8 0.269 302.7 +0.3 G8 V 8.27 +0.80 J+0.34 J+0.43CJ 065.2 15.3 029. 05. r 5.58 d -44 -6 -1 88746 CP-46 4357 V(AB) = 8.19 d(m) = 2.6 Gl 384 B s 10 10 56 -47 13.8 0.269 302.7 10.9 * 065.2 15.3 029. 05. r 8.2 * d sep 4.6" 135d - 5.3" 127d (1901-59) Gl 385 10 10 59 -84 52.4 0.01 158. 10.22: +0.34 +0.14t 056.6 15.3 056.6 15.3 9.0 : e discrepant photometry; ident?? Gl 385.1 10 11 12 -32 47.1 0.376 279.4 +41.9 G1 V 6.38 +0.59 +0.09 +0.20 053.7 07.1 053.7 07.1 5.03 c -31 -44 -1 88742 CD-32 7158 Wo 9321 s 10 11 15 -07 08.2 0.192 275.2 +14.6 dF6 7.21 +0.49 +0.05 040.9 17.0 016. 02. s 3.23 c -52 -17 -20 88697 BD-06 3109 Wo 9322 s 10 11 32 +03 24.3 0.473 150.0 -24. G1 V 7.76 +0.60 -0.02 042.9 08.8 026. 03. s 4.83 c +78 -36 -24 88725 BD+03 2338 G044-006 LTT 12747 GJ 2079 p 10 11 35 +21 19.7 0.23 204. +10.1 dM0 e W 10.20 +1.36 +1.15 +0.76 033.9 18.8 059. 13. r 9.05 d -5 -20 +1 V124 AC+22:214-129 NN 3589 10 11 45 +21 25.1 0.166 237.5 +16.8 F9 V 6.03 +0.55 +0.12 046. 07. r 4.34 d -17 -17 +4 88737 BD+21 2165 NN 3590 10 12 15 +31 40.2 0.239 183. m 13.60 +1.23 055. 10. r 12.30 d G118-043 GJ 1132 10 12 54 -46 54.7 1.137 292.2 -1. k 13.50 +1.72 +1.34 +1.22 058. 11. r 12.32 d -90 -13 -20 281 NN 3591 10 12 57 -82 37.8 0.556 303.7 k 11.07 +1.42 +1.15 +0.73 039. 06. r 9.03 d 2228 LTT 3760 L 17-47 NN 3592 10 13 12 -55 55. 0.136 298. +11. DZ9 15.10 +0.68 -0.12 090. 10. w 14.87 c -14 +32 -1 W BPM 19929 L 190-21 Gl 386 10 14 20 -11 42.2 0.744 213.9 -20. dM0 M 10.98 +1.47 +1.10 +1.05 089.7 10.5 089.7 10.5 10.74 c +4 -8 -43 G162-038 2244 V573 L 824-28 Gl 387 A 10 14 30 +23 21.5 0.429 255.1 +37.5 F8 Vbw 5.82 +0.50 -0.05 +0.17t 060.8 07.6 060.8 07.6 4.74 c -42 -25 +12 89125 BD+23 2207 BS 4039 ADS 7712 Gl 387 B 10 14 30 +23 21.5 0.429 255.1 +38.4 M1 K 11.4 * 060.8 07.6 060.8 07.6 10.3 * c -42 -25 +12 sep 7.4" 299d (1851-1958) d(m) = 6.0 NN 3593 p 10 15 50 +44 18.2 0.308 168.5 -8.3 G5 V 6.65 +0.66 +0.15 +0.22 026.2 10.2 046. 07. r 4.96 d +14 -30 +2 89269 BD+44 1973 LTT 12759 NN 3594 10 16 06 -26 14.9 0.053 133.2 +29.8 K0 V 7.94 +0.94 046. 06. r 6.25 c +3 -28 +12 89391 CD-25 7916 Gl 388 10 16 54 +20 07.3 0.506 264.0 +12.3 M4.5Ve 9.40 +1.54 +1.08 +1.13 203.9 02.8 203.9 02.8 10.95 a -15 -8 +3 BD+20 2465 G054-023 5167 V574 AD Leo Gl 388.1 10 17 01 +19 43.5 0.328 226.7 +6.1 F6 IV 4.81 +0.45 +0.01 050.9 15.3 050.9 15.3 3.3 e -14 -26 -11 89449 BD+20 2466 NN 3595 10 17 33 +49 33.0 0.382 253. m 13.16 +1.08 039. 08. r 11.12 d G196-019 Gl 388.2 s 10 18 25 -15 13.9 0.359 320.7 +82.8 SB F8 V 7.18 +0.55 -0.04 +0.32C 046.2 11.9 030. 03. s 4.57 c -68 -50 +54 89707 BD-14 3093 Wo 9326 10 19 13 +41 29.0 0.178 219.6 -6.5 F7 V 5.77 +0.53 +0.07 047.4 15.1 048. 08. r 4.18 d -3 -16 -10 89744 BD+41 2076 GJ 1133 10 19 37 +63 42.6 0.276 44. DA7 14.71 +0.38 -0.51 061.4 04.1 061.4 04.1 13.65 b G235-067 W350 LP 062-147 NN 3596 s 10 20 03 +15 35.9 0.282 248.1 +19.4 dG2 7.28 +0.65 +0.15 040.0 08.0 034. 04. r 4.94 c -33 -28 -8 89906 BD+16 2116 LTT 12778 ADS 7744 sep. 1.1" rapid Wo 9327 10 20 33 +65 49.2 0.027 200.0 -2.6 SB A0 p 4.97 -0.06 -0.13 041.8 15.3 041.8 15.3 3.1 f +0 -4 -1 89822 BD+66 664 Gl 389 A 10 20 37 -59 55.1 0.557 141.2 +24.7 M3 10.72 +1.43 +1.12 J+0.80 055.0 07.1 055.0 07.1 9.42 c +50 -11 -17 2253 L 190-266 sep 12" 23d Gl 389 B 10 20 37 -59 54.9 0.557 141.2 m 12.63 +1.49 +1.07 055.0 07.1 055.0 07.1 11.33 c 2254 L 190-265 NN 3597 10 21 37 -29 23.6 0.105 336.5 G5 V 6.94 +0.65 +0.39 043. 07. r 5.11 d 90156 CD-29 8316 NN 3598 10 21 40 +12 12.5 M0 s 12.46 +1.57 +1.28 +1.01 045. 09. r 10.73 d Steph 852 Gl 389.1 s 10 21 45 -10 08.9 0.403 132. dK8 M 10.00 +1.24 +1.17 +0.51 042.2 06.7 036. 05. r 7.78 d BD-09 3063 G162-050 V578 NN 3599 10 22 44 +26 39.0 0.537 212.4 k-m 13.19 +1.57 +1.20 +1.21 059. 11. r 12.04 d G054-026 2260 Gl 390 10 22 44 -09 58.6 0.722 276.1 +7. M1.5 K 10.17 +1.49: +1.14 +0.86 079.9 07.5 079.9 07.5 9.68 c -39 -11 -16 BD-09 3070 G162-052 2259 V579 NN 3600 A 10 22 57 +50 42.6 0.627 214.4 k-m 13.52 +1.21 051. 07. r 12.06 c G196-022 2262 LP 127-371 NN 3601 B 10 22 58 +50 42.8 0.627 214.4 m 13.68 +1.22 051. 07. r 12.22 c G196-023 2263 LP 127-372 sep 16" 26d Wo 9329 x 10 23 18 -44 38.2 0.17 295. 11.19 +0.94 +0.76 +0.46C 042.0 11.9 042.0 11.9 9.3 e CD-44 6469 Gl 391 10 23 24 -73 46.6 0.033 207.0 -4.7 SB? F2 IV 4.00 +0.35 -0.01 058.4 13.1 058.4 13.1 2.83 d -2 +5 -1 90589 CP-73 733 I Car Gl 392 A 10 24 59 +49 03.2 0.886 175.0 -6.8 F9 V 6.44 +0.60 +0.05 +0.24 051.9 06.1 051.9 06.1 5.02 c +17 -77 +18 90508 BD+49 1961 2266 Gl 392 B 10 24 59 +49 03.2 0.886 175.0 12.5 * 051.9 06.1 051.9 06.1 11.1 * c 2267 Gl 392.1 s 10 25 10 +82 48.9 0.087 286.8 +4.2 SB F2 V 5.26 +0.37 -0.05 045.5 11.9 045.5 11.9 3.6 e -9 +3 -4 90089 BD+83 297 NN 3602 10 25 21 +48 29.8 0.633 102.9 m 13.25 +1.67 048.6 03.3 048.6 03.3 11.68 b G146-035 2268 USNO 717 NN 3603 q 10 25 43 -06 20.5 0.468 232.2 +28.2 K0 V 7.86 +0.80 +0.46 030.3 07.0 039. 06. r 5.82 d -26 -53 -23 90711 BD-05 3071 G055-022 6 NN 3604 10 25 53 +32 29.6 0.511 292.9 m 13.00 +1.14 052. 10. r 11.58 d G118-061 2270 NN 3605 10 26 00 +00 14.9 DA 13.83 055. 06. w 12.53 c W PG WD1026+002 Gl 393 10 26 23 +01 06.4 0.949 218.2 +8.3 dM2.5 W 9.64 +1.52 +1.20 +0.96 136.2 04.1 136.2 04.1 10.31 a -7 -29 -16 BD+01 2447 G055-024 2272 V127 Gl 394 10 27 14 +56 15.4 0.185 258.1 +9.1 VAR K7 Ve 8.69 +1.33 +1.24 +0.55 072.1 13.7 072.1 13.7 7.98 d -15 -3 +2 237903 BD+56 1458 V030 Gl 395 10 27 26 +56 14.3 0.181 258.8 +8.6 SB? F8 V 4.84 +0.52 -0.01 +0.16 078.0 03.8 078.0 03.8 4.30 b -14 -2 +2 90839 BD+56 1459 NN 3606 p 10 27 32 +60 00.7 0.528 237.1 K4 K 8.77 +1.15 +0.43 023.6 06.7 050. 08. r 7.26 d 90875 BD+60 1266 G196-028 2275 LTT 12811 LFT 720 NN 3607 10 27 35 +33 06.0 0.555 229.4 M6 e: s 12.72 +1.45 +1.13 +1.10 048. 11. r 11.13 d G118-066 2274 Gl 396 10 28 15 +84 39.4 0.056 11.3 +9.0 K0 H 7.30 +0.82 +0.51 066.1 18.8 053. 07. r 5.92 c -3 +10 +2 90343 BD+85 161 Gl 397 10 28 27 +45 47.5 0.822 225.4 +23.9 K7 V 8.86 +1.33 +1.28 +0.59 067.6 13.1 067.6 13.1 8.01 d -41 -46 +7 BD+46 1635 G146-039 2279 V032 Gl 397.1A 10 28 30 +57 22.2 0.251 325. -2. dM0 e M 9.65 +1.38 +0.61 048.1 11.9 057. 08. r 8.43 d -9 +13 -14 BD+57 1274 V031 Gl 397.1B 10 28 17 +57 20.5 0.251 325. m 16.2 P 048.1 11.9 057. 08. r 15.0 P d BD V031B LP 92-176 sep. 142" 225d (NLTT) d(pg) = 5.2 d(R) = 4.8 NN 3608 AB 10 28 39 -21 23.1 0.429 144. K7 V U 10.68 +1.38 J+1.35 J+0.66 J 043. 06. r 8.85 d BD-20 3198 V583 U235 LTT 3856 L 681-21 DON 414 sep(AB) < 1" d(m) = 0.3 V(J) = 10.07 NN 3609 C 10 28 39 -21 23.1 0.429 144. 13.13 +1.57 +1.21 043. 06. r 11.30 d V583C DON 414C sep 6" 189d Gl 397.2 10 29 25 -53 27.7 0.467 295.8 +21.0 F6 V 4.89 +0.50 -0.02 +0.30C 047.8 14.5 051. 05. s 3.43 c -37 -30 -2 91324 CP-53 3909 Wo 9333 x 10 30 35 -41 12.4 0.10 96. 11.12 +0.90 +0.58 +0.41C 041.0 18.8 041.0 18.8 9.2 f CD-40 6102 NN 3610 A 10 31 32 +46 33.8 0.411 257. m 13.13 +1.14 049. 10. r 11.58 d G146-043 LP 167-64 L 1617-7 NN 3611 B 10 31 28 +46 34.0 0.411 257. m+ 15.5 : 049. 10. r 14.0 : d LP 167-63 sep 46.5" 285d NN 3612 10 32 04 +69 43.0 1.752 250.5 k-m 11.93 +1.55 +1.02 075.6 04.4 075.6 04.4 11.32 b G236-034 283 LTT 12827 LFT 723 L 1912-9 LP 37-179 Gl 398 10 33 28 +05 22.7 0.642 278.1 +21.0 dM4 e W 12.60 +1.60 +1.12 +1.19 073.0 04.3 073.0 04.3 11.92 b -44 -17 -2 G044-027 2285 L 1113-055 Gl 398.1 10 34 03 -11 57.7 0.727 158.7 -6.2 F7 V 5.71 +0.52 +0.00 +0.18 044.0 09.2 046. 06. r 4.02 c +60 -31 -33 91889 BD-11 2918 2286 NN 3613 10 35 30 +48 47.4 0.216 248. m 13.49 +1.16 044. 09. r 11.71 d LP 167-71 NN 3614 10 36 32 -20 25.8 0.628 330.3 DQP9 16.46 069. 07. w 15.65 c 2293 W535 LTT 3902 L 681-8 LP 790-29 Gl 399 10 37 12 -06 39.7 0.725 261.2 m 11.30 +1.53 +1.01 088.5 15.2 088.5 15.2 11.03 d G055-035 2295 L 897-16 GJ 1135 10 38 52 -36 37.9 0.252 133.4 M0 V U 9.97 +1.48 +1.17 +0.80 075. 17. r 9.35 d CD-36 6589 U241 LTT 3919 L 465-43 GJ 1134 10 38 53 +37 52.6 1.505 256.1 +10. m 12.98 +1.68 +1.17 +1.30 096.2 02.3 096.2 02.3 12.90 a -61 -36 -24 G146-058 287 GJ 1136 A 10 39 35 -36 22.2 0.169 291.9 K7 V U 10.19 +1.46 +1.19 +0.73 056. 08. r 8.93 d CD-35 6662 U242 LDS 314 BPM 54256 GJ 1136 B 10 39 35 -36 22.2 0.169 291.9 11.67 +1.52 +1.11 +0.96 056. 08. r 10.41 d BPM 54257 NN 3615 10 41 08 -28 48.0 0.242 249.0 K1 V 7.74 +0.89 +0.56 048. 08. r 6.15 d 92945 CD-28 8394 LTT 3932 GJ 1137 10 42 02 -33 18.7 0.176 216.8 +41.7 K2 V 8.30 +0.95 +0.72 +0.37 044. 07. r 6.52 d +2 -46 -2 93083 CD-32 7598 U243 BPM 54316 NN 3616 A 10 42 06 +32 40.5 0.213 277. m 13.55 +1.17 044. 09. r 11.77 d LP 316-604 NN 3617 B 10 42 08 +32 40.2 0.213 277. m 15.5 : 044. 09. r 13.7 : d LP 316-605 sep 40" 123d Gl 400 A 10 42 30 +38 46.4 0.160 346.5 -3.2 dM2 W 9.30 +1.41 J+1.20 J+0.74 J 081.5 08.1 081.5 08.1 8.86 c -2 +8 -5 BD+39 2376 V033 ADS 7915 V(AB) = 9.23 d(m) = 2.9 Gl 400 B 10 42 30 +38 46.4 0.160 346.5 -4.1 12.2 * 081.5 08.1 081.5 08.1 11.8 * c -2 +8 -6 sep 1.2" 326d - 0.7" 290d (1896-1965) NN 3618 10 42 40 -60 57.2 1.657 348.1 m 13.92 +1.82 +1.68C 222.8 13.6 222.8 13.6 15.66 b 288 LTT 3946 L 143-23 Gl 401 A 10 43 19 -18 50.5 1.980 250.5 +36. M1 11.03 +1.44 +0.96 +0.77 077.3 13.9 077.3 13.9 10.47 d -77 -80 -60 BD-18 3019 289 Gl 401 B 10 43 19 -18 50.5 1.980 250.5 DQ9 16.5 P 077.3 13.9 077.3 13.9 15.9 P d 290 W NN 3619 10 43 27 +09 57.9 0.288 201. m 13.55 +1.16 043. 09. r 11.72 d G044-035 LTT 12870 NN 3620 10 44 13 -24 19.2 0.146 233.8 K5 V 9.39 +1.16 +1.00 +0.46 040. 06. r 7.40 d 93380 CD-23 9524 U245 CP-23: 5013 NN 3621 s 10 44 38 +21 45.7 0.397 260.0 +35.3 K5 s 10.13 +1.22 +1.18 +0.48 053.1 03.7 053.1 03.7 8.76 b -41 -25 +14 BD+22 2271 G058-017 V588 LTT 12876 NN 3622 10 45 41 -11 03.1 1.644 158.5 -7. M6.5 15.60 +2.10 +1.99 221.0 03.6 221.0 03.6 17.32 a +29 -11 -18 292 LP 731-58 NN 3623 10 45 51 +19 25.0 0.246 109. m 13.45 +1.14 042. 08. r 11.57 d G058-021 LTT 12881 L 1258-7 LP 431-69 NN 3624 10 46 29 +05 18.7 0.624 216.6 m 19.11 040.9 02.3 040.9 02.3 17.17 b 2314 LP 551-13 GJ 1138 10 47 00 +35 49.5 1.231 213.2 m 13.02 +1.66 +1.15 +1.31 102.4 03.7 102.4 03.7 13.07 a G119-036 293 NN 3625 10 47 30 -79 12.0 0.505 244.6 m 13.45 +1.25 063. 11. r 12.45 d 2310 L 37-56 NN 3626 s 10 47 39 +33 22.3 0.629 171.1 m 13.07 +1.52 042.0 03.3 042.0 03.3 11.19 b G119-037 2317 NN 3627 A 10 47 42 +52 03.9 0.203 267.5 G5 8.33 040. 04. r 6.34 c 93811 BD+52 1514 LTT 12889 NN 3628 B 10 47 40 +52 00.9 0.203 273. m 14.10 +1.24 040. 04. r 12.11 c LP 128-32 Gl 402 10 48 19 +07 05.1 1.150 225.1 -0.9 SB dM5 W 11.65 +1.67 +1.16 +1.25 145.1 04.8 145.1 04.8 12.46 a -10 -28 -22 G044-040 294 Wolf 358 NN 3629 10 48 33 +36 23.4 0.182 265. m 13.46 +1.16 045. 09. r 11.73 d LP 263-35 Gl 402.1 x 10 49 29 +00 06.5 0.262 168.5 dK8 M 10.20 +0.90 +0.37 046.8 15.3 046.8 15.3 8.6 e BD+00 2709 G163-014 V589 Gl 403 10 49 30 +14 15.7 1.126 279.6 dM3 K 12.67 +1.65 +1.25 +1.16 083.7 17.0 083.7 17.0 12.28 d G044-042 295 NN 3630 10 49 31 +00 48.6 0.287 273. m 13.85 +1.28 060. 10. r 12.74 d G045-011 LTT 12899 NN 3631 10 49 41 +06 11.1 0.639 257.8 m 14.4 * +1.28 046. 08. r 12.7 * d G044-043 2320 Wo 9336 s 10 50 39 -20 21.5 0.314 210.7 -13.1 G3/5 V 7.05: +0.64 +0.19 043.9 13.6 037. 05. r 4.89: c +1 -12 -41 94340 BD-19 3122 LTT 3991 GJ 1139 s 10 50 40 +76 19.9 0.465 287.5 -24.4 K4 K 9.65: +1.10 +1.02 +0.48 056.1 10.7 035. 06. r 7.37: d -37 -17 -54 BD+76 404 G253-040 V874 Gl 403.1 10 51 03 -19 52.1 0.255 162.6 -3.8 F6 V 5.23 +0.46 +0.06 +0.27C 052.3 18.8 051. 08. r 3.77 d +18 -6 -15 94388 BD-19 3125 Gl 404 10 51 12 -44 08.7 0.265 270.9 +6.4 F8 IV-V 8.09 +0.52 -0.09 +0.32C 057.2 08.5 057.2 08.5 6.88 d -18 -12 -8 94444 CP-43 4994 Gl 404.1 10 51 27 -58 35.2 0.074 70.2 +8.1 K1 III 3.78 +0.95 +0.65 +0.46C 057.0 17.0 057.0 17.0 2.6 e +7 -6 +4 94510 CP-58 2834 Wo 9340 x 10 51 50 -30 53.3 0.351 198.9 +92.5 G2 V 8.35 +0.60 +0.02 +0.22 041.7 11.9 041.7 11.9 6.5 e +16 -99 +4 94518 CD-30 8807 LTT 4001 Gl 405 s 10 52 53 +56 18.0 0.548 283.1 M1.5 K 12.72 +1.53 +0.96 061.4 11.9 061.4 11.9 11.66 d G196-051 2331 Ross 107 NN 3632 10 53 05 -09 05.8 0.528 329.5 M4 K 13.54 +1.63 +1.19 050. 13. r 12.0 e G163-023 2328 LTT 4009 L 898-42 LP 671-10 NN 3633 q 10 53 55 +07 39.4 0.263 253.0 K0 7.34 +0.92 +0.66 037.9 11.9 063. 08. r 6.34 c 94765 BD+08 2434 LTT 12921 Gl 406 10 54 06 +07 19.2 4.696 234.6 +13.0 M6 K 13.45v +2.00 +1.21: +1.84 418.3 02.5 418.3 02.5 16.56v a -26 -44 -19 G045-020 36 LTT 12923 Wolf 359 Gl 406.1 10 54 21 +69 51.8 0.638 275.3 +7.0 dM0.5 W 10.28 +1.40 +1.35 +0.65 041.4 08.7 041.4 08.7 8.37 d -66 -12 -30 BD+70 639 G236-046 2334 V034 LTT 12927 GJ 1140 10 55 07 -07 15.4 0.816 274.0 DA6 14.31 +0.32 -0.52 083.3 03.8 083.3 03.8 13.91 b G163-027 2333 W 74 Wo 9342 s 10 55 28 +48 33.6 0.10 145. dM0 M 10.52 +1.37 +1.28 +0.58 053.6 06.0 053.6 06.0 9.17 c BD+49 2004 V593 NN 3634 10 56 14 -30 52.5 0.531 261.4 m 11.95 +1.01 056. 11. r 10.69 d 2335 LP 905-36 NN 3635 10 56 24 +30 31.5 0.631 238.4 m 15.36 +1.75 044.7 08.2 044.7 08.2 13.61 d G147-011 2337 Gl 407 10 56 40 +40 41.9 0.324 279.2 +11.6 G0 V 5.05 +0.61 +0.13 071.9 13.1 071.9 13.1 4.33 d -24 -3 +1 95128 BD+41 2147 Gl 408 10 57 25 +23 06.3 0.465 239.9 +3.0 M3 K 10.02 +1.54 +1.22 +1.04 144.6 04.4 144.6 04.4 10.82 a -9 -12 -4 G058-032 6 V128 LTT 12942 AC+23:468-46 NN 3636 10 58 12 +12 20. M5 e 15.96 +1.50 049. 08. r 14.41 d IE 1058.2+1220 V-R(kc) = 1.48, R-I(kc) = 1.87 FLGM NN 3637 10 58 41 +03 16.8 1.103 112.3 m 14.07 +1.73 +1.27 +1.28 071.9 03.1 071.9 03.1 13.35 a G045-027 296 LTT 12949 NN 3638 10 58 47 +15 17.0 0.329 179.7 -56.4 G8 K 7.66 +0.94 +0.48 039.8 25.9 048. 08. r 6.07 d +30 -7 -57 95486 BD+15 2276 LTT 12950 Wo 9343 10 58 50 +56 39.1 0.086 69.8 -12.0 SB A1 V 2.37 -0.02 +0.01 046.3 11.8 046.3 11.8 0.7 e +13 +2 -8 95418 BD+57 1302 Gl 409 x 10 59 29 -17 41.2 0.02 207. 11.87 +0.61 +0.32C 055.5 08.5 055.5 08.5 10.59 d AC-17:31766 GJ 1141 A 10 59 38 +16 47.4 0.196 152. dM0 M 11.51 +1.48 +0.85 068.4 07.3 068.4 07.3 10.69 c V277 LTT 12954 LDS 917 GJ 1141 B 10 59 38 +16 47.4 0.196 152. dM0 M 11.63 +1.48 +0.88 068.4 07.3 068.4 07.3 10.81 c LTT 12955 Gl 410 10 59 57 +22 14.2 0.152 112.8 -13.9 dM2 e M 9.60 +1.48 +1.19 +0.77 090.9 06.3 090.9 06.3 9.39 b +12 +3 -10 95650 BD+22 2302 V129 NN 3639 11 00 24 +36 55.3 0.185 280. m 13.67 +1.22 051. 09. r 12.21 d LP 263-64 Gl 411 11 00 37 +36 18.3 4.807 186.8 -84.3 M2 Ve 7.48 +1.51 +1.12 +0.92 397.3 01.8 397.3 01.8 10.48 a +46 -53 -74 95735 BD+36 2147 G119-052 37 V594 NN 3640 11 01 29 +40 16.5 0.229 248. K5 s 10.74 +1.40 +1.23 044. 21. r 9.0 f LP 214-26 NN 3641 11 02 43 +45 16.9 0.270 139. m 11.11 +1.48 +1.29 +0.76 042. 07. r 9.23 d G176-008 NN 3642 AB 11 02 55 -27 01.4 0.190 267.4 +19.1 F3 IV J 5.63 +0.37 J+0.04 J 040.3 11.9 040.3 11.9 3.7 e -17 -24 +0 96202 CD-26 8338 BS 4314 a = 0.140" P = 7.40 yr, V(AB) = 4.93 d(m) = 0.10 Gl 412 A 11 03 00 +43 47.0 4.528 282.1 +68.8 M2 Ve 8.74 +1.54 +1.18 +0.81 188.8 06.1 188.8 06.1 10.12 a -132 -6 +12 BD+44 2051 G176-011 38 V035 LTT 12976 Gl 412 B 11 03 02 +43 46.7 4.531 281.9 M6 e K 14.40v +2.09v +1.80 188.8 06.1 188.8 06.1 15.78v a G176-012 39 LTT 12977 WX Uma NN 3643 11 03 04 +10 31.0 0.919 139.1 M3.5 K 12.4 * +1.06 055. 11. r 11.1 * d G045-033 2348 LTT 12978 L 1187-43 LP 491-60 Gl 412.1 11 04 29 -62 09.2 0.041 281.3 -2.0 G8 III 4.62 +1.03 +0.82 +0.33 053.7 11.9 053.7 11.9 3.27 d -4 +1 -1 96566 CP-61 2067 Gl 412.2 11 05 31 -29 54.1 0.526 254.8 +12.7 G2 V 6.54 +0.60 +0.08 +0.21 049.5 09.0 049.5 09.0 5.01 d -34 -31 -23 96700 CD-29 8875 2354 GJ 1142 A p 11 05 34 -04 57.2 0.422 184. dM6 12.56 +1.52 +1.25: +1.08 020.6 13.0 050. 10. r 11.05 d G163-051 GJ 1142 B p 11 05 28 -04 52.9 0.422 184. +15.4 DA3 12.92 +0.05: -0.69 -0.12 020.6 13.0 050. 10. r 11.41 d +20 -9 -44 G163-050 W 76 Gl 412.3 11 05 43 -27 59.8 0.496 267.0 +14.9 K7 V U 9.33 +1.25 +1.18 +0.54 048.4 21.8 054. 09. r 7.99 d -35 -28 -11 CD-27 7881 6 U252 NN 3644 11 07 07 +02 43.6 0.283 276.5 +7.7 G5 7.68 +0.78 +0.40 040. 05. r 5.69 c -32 -12 -5 96937 BD+03 2466 G163-054 LTT 13000 Wolf 363 Gl 413.1 11 07 07 -24 19.3 0.911 240.5 -5. M3 K 10.44 +1.53 +1.1 : +0.96 102.1 08.4 102.1 08.4 10.49 b -22 -17 -32 CD-23 9765 2358 LTT 4108 Wo 9350 x 11 07 20 -42 11.2 0.396 132. +8. K1 9.74 +0.78 +0.35 040.5 15.3 040.5 15.3 7.8 f +45 -1 -12 CD-41 6367 LTT 4109 NN 3645 11 07 26 -10 00.9 M0 V U 10.54 +1.40 +1.27 +0.64 041. 08. r 8.60 d BD-09 3222 U254 Steph 922 NN 3646 11 08 03 +48 13.7 0.586 210.6 m 14.52 +1.29 046. 08. r 12.83 d G176-015 2363 Gl 414 A 11 08 20 +30 43.2 0.614 109.8 -15.4 K8 V 8.33 +1.34 +1.29 +0.59 073.2 03.9 073.2 03.9 7.65 b +43 +2 +0 97101 BD+31 2240 G119-060 2367 V600 Gl 414 B 11 08 18 +30 43.2 0.618 110.2 -15.0 M2 V 9.98 +1.52 +1.15 +0.92 073.2 03.9 073.2 03.9 9.30 b +43 +1 +1 BD+31 2238 G119-059 2366 Gl 414.1A 11 08 35 +43 41.7 0.766 236.9 -10.5 M3 K 11.47 +1.49 c +1.05 J 061.0 03.0 061.0 03.0 10.40 b -30 -48 -21 G122-002 2368 V036 AC+44:472-15 V(AB) = 10.88 d(m) = 0.35 Gl 414.1B 11 08 35 +43 41.7 0.766 236.9 -19. M3 K 11.82 +1.54 c 061.0 03.0 061.0 03.0 10.75 b -27 -49 -29 2369 Kui 55 sep 3.76" 78d USNO 613/4 Gl 415 11 08 43 -10 41.2 1.067 302.4 +40.0 K4 K 9.24 +1.10 +0.92 +0.48 051.0 11.9 043. 07. r 7.41 d -119 -22 +29 97214 BD-10 3216 298 V601 Gl 416 11 09 01 -14 42.7 0.925 129.3 -9.8 VAR K4 V 9.05 +1.21 +1.08 +0.54 054.8 08.4 054.8 08.4 7.74 d +79 -1 -16 97233 BD-14 3277 2370 V602 NN 3647 11 09 09 +33 48.4 0.203 299. dM4 12.38 +1.19 082. 16. r 11.95 d G119-062 Gl 416.1 11 09 12 -22 33.1 0.105 179.9 +6.4 A2 III 4.48 +0.03 +0.06 +0.01C 052.3 14.3 052.3 14.3 3.1 e +5 -10 -3 97277 BD-22 3095 BET Crt NN 3648 q 11 09 33 -25 51.8 0.279 105.0 +56.7 G8/K0 V 7.05 +0.77 +0.38 024.0 11.9 045. 04. s 5.32 b +34 -42 +34 97343 BD-25 8519 LTT 4131 Gl 417 11 09 49 +36 05.3 0.302 236.6 -3.2 G0 V 6.41 +0.61 +0.10 044. 07. r 4.63 d -17 -26 -11 97334 BD+36 2162 NN 3649 11 10 00 +19 12.4 M1 s 10.77 +1.50 +1.19 +0.88 068. 12. r 9.93 d Steph 928 Gl 418 11 10 39 +04 45.3 0.320 261.7 +20.8 K5 V 8.69 +1.18 +1.12 +0.46 056. 09. r 7.43 d -25 -23 +6 97503 BD+05 2463 G010-007 V604 NN 3650 q 11 10 40 +00 30.7 0.471 240. K7 K 10.24 +1.46 +1.24 038.0 17.0 050. 15. r 8.7 e G010-006 LTT 13023 Wolf 370 Gl 419 11 11 27 +20 47.9 0.196 133.4 -20.2 A4 V 2.56 +0.12 +0.12 045.6 17.3 045.6 17.3 0.9 f +24 -2 -15 97603 BD+21 2298 DEL Leo NN 3651 11 11 53 +25 58.9 0.117 292.2 +2.0 K1 V 7.76 +0.84 +0.44 044. 07. r 5.98 d -13 +0 -2 97658 BD+26 2184 Gl 420 A 11 11 57 +73 44.8 0.417 284.9 +8.1 dK5 W 7.68 +1.06 +0.92 +0.40 081.6 09.7 081.6 09.7 7.24 c -24 +1 -7 97584 BD+74 456 G254-018 V603 Gl 420 B 11 11 57 +73 44.8 0.417 284.9 +8.6 M2 K 11.4 * 081.6 09.7 081.6 09.7 11.0 * c -25 +2 -7 ADS 8100C sep 7" 305d d(m) = 3.4 V(AC) = 7.63 GJ 1143 A 11 12 21 -22 49.6 0.450 215.3 K4 V 8.98 +1.14 +1.02: +0.51 051. 08. r 7.52 d 97782 BD-22 3102 U259 LTT 4150 DON 466A GJ 1143 B 11 12 21 -22 49.6 0.450 215.3 13.5 * 051. 08. r 12.0 * d DON 466B NN 3652 11 12 33 +19 44.0 0.476 162.6 m 12.89 +1.58 +1.18 +1.16 057. 11. r 11.67 d G056-026 6 LFT 778 LTT 13033 L 1259-11 LP 432-24 Gl 421 A 11 12 50 -17 51.7 0.754 169.3 +5.0 K7 V U 9.97 +1.36 +1.21 +0.60 063.6 04.8 063.6 04.8 8.99 b +37 -30 -31 BD-17 3336 2379 V037 U260 Gl 421 B 11 12 51 -17 51.6 0.754 169.3 +18.0 SB K7 V U 10.04 +1.38 +1.21 +0.61 063.6 04.8 063.6 04.8 9.06 b +37 -40 -23 BD-17 3337 2380 U261 Gl 421 C 11 12 46 -17 50.6 0.754 169.3 +18. M3.5 K 13.64 +1.58 +1.05 +1.16 063.6 04.8 063.6 04.8 12.66 b +37 -40 -23 2378 LTT 4155 L 755-50 NN 3653 11 13 01 +55 36.2 M0 s 11.22 +1.41 +1.06 +0.79 042. 07. r 9.34 d Steph 932 Gl 421.1A s 11 13 12 +53 02.7 0.171 72.6 -42.1 F6 V 6.50 +0.43 -0.12 054.1 10.2 026. 03. s 3.57 c +43 +8 -29 97855 BD+53 1480 Gl 421.1B s 11 13 12 +53 02.9 0.191 73.6 -42.4 F9 V 8.03 +0.60 -0.04 054.1 10.2 026. 03. s 5.10 c +46 +10 -28 GJ 1144 11 13 52 -14 25.1 0.227 245. K7 V U 10.00 +1.40 +1.20 +0.66 053. 11. r 8.62 d BD-13 3333 V607 LTT 4164 U263 Gl 422 11 14 03 -57 17.5 2.733 294.9 -72. m 11.65 +1.47 +0.92 +1.10 076.7 14.2 076.7 14.2 11.07 d -183 +9 +8 40 L 192-072 NN 3654 11 14 13 -27 40.3 0.951 211.7 M4 K 13.7 * +1.28 064. 11. r 12.7 * d 2385 LTT 4168 L 611-67 LP 906-9 GJ 1145 11 14 40 -27 32.4 0.186 122.5 M0 V U 9.79 +1.40 +1.21 +0.64 058. 12. r 8.61 d CD-27 7978 U264 LTT 4170 Wo 9356 s 11 14 42 -01 42.5 0.567 268.1 +4.0 dK6 9.78 +1.17 +1.18 +0.44 047.5 09.1 032. 04. r 7.31 c -72 -33 -28 BD-01 2505 G010-010 2388 LFT 788 Gl 423 A 11 15 31 +31 48.6 0.727 216.2 -15.9 SB G0 Ve 4.33 +0.59 J+0.04 J+0.22tJ 130.5 22.3 096. 13. r 4.24 c -3 -33 -21 98231 BD+32 2132 2390 XI Uma ADS 8119 V(AB) = 3.79 d(m) = 0.47 Gl 423 B 11 15 31 +31 48.6 0.727 216.2 -13.6 SB G0 Ve 4.8 * 130.5 22.3 096. 13. r 4.7 * d -3 -33 -19 98230 2391 s = 2.530" P = 59.840 yr, Aa-P: a = 0.05" P = 1.832 yr Gl 423.1 11 15 47 -04 47.5 0.810 101.4 +13.1 G8 V 7.29 +0.73 +0.28 +0.28 051.6 09.7 044. 07. r 5.51 d +82 +9 +31 98281 BD-04 3049 G163-074 2393 Gl 424 11 17 29 +66 07.0 2.961 273.6 +60.0 M1 V 9.31 +1.41 +1.08 +0.75 114.0 03.5 114.0 03.5 9.59 a -137 -10 -2 BD+66 717 G236-065 41 V038 SZ Uma Gl 425 A 11 18 57 -20 10.7 0.233 126.6 +7.4 K4/5 V J 8.74 +1.36 J+1.20 J+0.58 063.5 08.2 063.5 08.2 7.75 c +18 -6 +2 98712 BD-19 3242 V608 ADS 8138 SZ Crt V(AB) = 8.61 d(m) = 2.2 Gl 425 B 11 18 57 -20 10.7 0.233 126.6 m 11.0 * 063.5 08.2 063.5 08.2 10.0 * c sep 6.3" 207d - 5.1" 329d (1877-1959) GJ 1146 s 11 19 06 +06 26.1 1.749 206.0 k-m 13.58 +1.64 +1.27? +1.09 054.0 04.2 054.0 04.2 12.24 b G010-017 301 Gl 426 A q 11 19 12 +18 27.9 0.183 235.4 -4.1 K0 K 8.03 +0.89 J+0.64 J 026.2 32.2 040. 06. r 6.04 d -9 -16 -12 98736 BD+19 2443 ADS 8140 V(AB) = 7.94 d(m) = 2.7 Gl 426 B q 11 19 12 +18 27.9 0.183 235.4 K7 K 10.7 * 026.2 32.2 040. 06. r 8.7 * d NN 3655 11 19 20 -12 56.6 0.515 261.0 +30. M8 19.57 070.2 02.1 070.2 02.1 18.80 a -27 -37 +6 2397a LP 732-94 NN 3656 11 19 21 +47 11.1 0.265 232.4 K6 s 9.80 +0.53 043. 06. r 7.97 d BD+47 1863 G176-029 LTT 13073 GJ 2084 AB 11 19 37 -24 30.2 0.089 249.6 K4 V J 9.08 +1.26 +1.07 +0.62 068. 12. r 8.24 d 98800 CD-24 9706 U267 ADS 8131 NN 3657 11 20 33 +26 10.4 1.059 252.0 m 15.14 +1.84 057.7 05.5 057.7 05.5 13.95 c 302 LP 374-39 USNO 721 NN 3658 11 20 37 +45 05.2 0.315 248. m 12.74 +1.03 041. 08. r 10.80 d G122-020 GJ 2085 11 21 13 +08 50.1 1.036 278.4 +58.0 dM1 K 11.18 +1.48 +1.14 +0.82 039.4 14.5 048. 09. r 9.59 d -104 -50 +23 G010-019 303 NN 3659 11 21 29 -18 05.3 0.616 266.7 M3 K 13.05 +1.22 060. 13. r 11.94 d 2401 LTT 4217 L 755-53 LP 792-20 Gl 427 11 21 39 +21 38.1 1.050 270.2 +51. DA7 14.24 +0.28 -0.53 074.2 03.0 074.2 03.0 13.59 a -60 -26 -17 G120-045 304 W079 Ross 627 NN 3660 A 11 22 13 +78 32.6 0.678 248.9 M2.5 K 12.15 +0.97 044. 06. r 10.37 c G253-050 2405 LTT 13090 AC+78:3815 NN 3661 B 11 22 01 +78 33.7 0.678 248.9 M3 K 12.65 +1.01 044. 06. r 10.87 c G253-049 2404 LTT 13091 sep 74" 327d NN 3662 p 11 22 18 +40 16.7 0.122 254.0 +4. dM0 W 10.33 +1.36 +1.25 +0.64 026.2 15.3 044. 09. r 8.55 d -11 -8 +0 V039 AC+40:477-39 Gl 428 A 11 22 29 -61 22.4 0.490 277.1 +4.7 K7 V 7.50 +1.26 J+1.18 J+0.54 J 090.9 08.6 090.9 08.6 7.29 c -21 -14 -5 99279 CP-60 2911 2402 V(AB) = 7.21 d(m) = 1.31 Gl 428 B 11 22 29 -61 22.4 0.490 277.1 +4.5 M0 Ve 8.3 * 090.9 08.6 090.9 08.6 8.1 * c -21 -14 -5 a = 5.760" P = 421.5 yr NN 3663 11 23 33 -63 41.8 0.318 257.3 -5.0 SB F7 V +F7V 5.17 +0.50 +0.02 040.9 05.7 040.9 05.7 3.23 d -31 -7 -19 99453 CP-63 1893 LTT 4227 CD-63:650 Gl 429 A 11 24 13 +03 17.1 0.747 283.6 +3.8 K0 IV 6.50 +0.80 +0.48 +0.24 060.4 06.4 060.4 06.4 5.41 c -57 -12 -9 99491 BD+03 2502 2407 Gl 429 B 11 24 14 +03 16.7 0.745 284.7 +1.7 K2 IV-V 7.58 +1.00 +0.92 +0.34 060.4 06.4 060.4 06.4 6.49 c -57 -10 -11 99492 BD+03 2503 G010-023 2408 NN 3664 p 11 25 04 +04 15.2 0.095 288. dM0 M 10.68 +1.42 +0.69 027.8 06.0 043. 07. r 8.85 d BD+ 4 2470 V609 Gl 429.2 s 11 25 26 -08 53.7 0.994 148.6 M2 K 12.37 +1.46 +1.02 +0.84 041.8 05.3 041.8 05.3 10.48 c 2412 AC-09:1823-108 NN 3665 11 26 08 +48 30.3 0.074 327.7 G5 7.89 043. 05. o 6.06 c 99748 BD+49 2059 NN 3666 11 26 23 +10 26.8 0.929 306.5 M3 K 12.56 +1.60 +1.14 +1.20 063.8 08.5 063.8 08.5 11.58 c G056-044 2415 LTT 13128 Wolf 398 NN 3667 11 26 42 +18 33.2 DC8 13.79 114. 13. w 14.07 c W WD1126+185 PG Gl 429.3 x 11 27 28 -51 23.3 0.358 283.4 +7. VAR F6 V 7.38 +0.41 -0.08 051.1 10.2 051.1 10.2 5.92 d -28 -18 -2 100004 CD-50 6060 Gl 429.4 11 28 18 -56 51.5 0.557 272.7 -2.7 K4 Ve 8.33 +1.06 +0.99 +0.37 047.2 08.4 050. 07. r 6.82 d -48 -18 -14 304391 CP-56 4554 2417 Gl 430 p 11 28 22 +63 26.0 0.06 81. -6. dM0 W 10.02 +1.33 +1.26 +0.61 035.1 11.9 048. 09. r 8.43 d +8 +0 -3 BD+63 965 V132 NN 3668 11 28 35 -14 39.6 1.393 164.0 m 14.29 +1.81 +1.40 078. 11. r 13.75 d 306 LP 732-35 Gl 430.1 11 29 08 +22 56.5 0.580 270.0 -5.1 dM1 e W 10.30 +1.48 +1.22 +0.81 056.7 13.6 056.7 13.6 9.1 e -41 -17 -20 BD+23 2359 G120-057 2422 V133 NN 3669 A q 11 29 10 +14 38.6 0.383 240.1 -4.2 G0 V 6.20 +0.57 +0.07 021.6 07.5 041. 04. s 4.26 c -23 -32 -21 100180 BD+15 2345 LTT 13145 Wolf 401 ADS 8196 NN 3670 B q 11 29 10 +14 38.6 0.383 240.1 -10.3 K6 IV 9.22 +1.14 +1.03 021.6 07.5 041. 04. s 7.28 c -22 -30 -26 LTT 13146 sep 15" 326d Gl 431 11 29 23 -40 46.3 0.717 290.1 -78. M3.5 K 11.52 +1.54 +0.97 +1.16 094.3 12.1 094.3 12.1 11.39 c -56 +60 -25 2423 L 396-007 Gl 431.1A 11 29 32 +61 21.6 0.076 180.5 -47.9 F6 V 5.74 +0.50 J-0.01 J 043.9 05.2 043.9 05.2 3.95 c +23 -26 -34 100203 BD+61 1246 ADS 8197 BS 4439 V(AB) = 5.48 d(m) = 1.43 Gl 431.1B 11 29 32 +61 21.6 0.076 180.5 G3 V 7.1 * 043.9 05.2 043.9 05.2 5.3 * c a = 0.813" P = 72.87 yr Wo 9367 s 11 31 48 +03 20.3 0.214 239.6 +3.0 F6 V 5.77 +0.46 +0.01 044.0 11.9 038. 05. r 3.67 c -14 -21 -10 100563 BD+03 2521 LTT 13159 Gl 432 A 11 32 03 -32 34.0 1.061 320.8 -22.6 K0 V 5.98 +0.81 +0.39 +0.29 101.7 11.5 101.7 11.5 6.02 c -49 +20 +13 100623 CD-32 8179 308 Gl 432 B 11 32 04 -32 34.1 1.061 320.8 m 15. * 101.7 11.5 101.7 11.5 15. * e 309 VB 4 NN 3671 p 11 32 09 -23 35.6 0.681 245.9 M1 K 11.17 +1.53 +0.80 029.5 18.8 047. 09. r 9.53 d CD-23 10062 2427 LTT 4281 comp B: K: opt NN 3672 11 32 33 -05 22.0 0.994 161.6 m 15.1 * +1.44 060. 09. r 14.0 * d 2428 LP 673-13 NN 3673 11 32 55 +39 12.3 0.701 252.3 m 13.11 +1.19 059. 11. r 11.96 d G122-034 2430 Gl 433 11 32 58 -32 15.1 0.831 185.1 +28. M2 V U 9.83 +1.51 +1.17 +0.90 090.5 13.8 090.5 13.8 9.61 d +22 -40 -24 CD-31 9113 2429 U270 NN 3674 p 11 34 00 +39 28.3 0.588 131.9 -42. K5 K 10.03 +1.35 +1.27 +0.60 034.1 15.3 045. 09. r 8.30 d +69 -22 -19 BD+40 2442 G122-036 2432 V134 LTT 13171 Gl 433.1 11 34 28 +30 04.6 0.15 262. DA3 12.50 -0.06 -0.98 045. 05. w 10.77 c W184 AC+30:27225 GD140 LB10276 PG CBS 46 NN 3675 11 34 43 +82 05.2 0.429 90. m 11.77 +1.50 050. 24. r 10.3 f G253-053 LTT 18178 AC+82:1874 NN 3676 11 34 55 +58 59.5 0.370 240. m 12.57 +1.01 042. 08. r 10.69 d G197-021 LTT 13176 Ross 112 GJ 1147 11 36 03 -41 05.6 0.961 274.5 +28. k 13.79 +1.72 +1.20 +1.21 050. 09. r 12.28 d -74 -60 -9 2435 Gl 433.2A 11 36 07 +45 23.1 0.600 271.3 -17.3 G0 V 6.45 +0.57 -0.02 049.9 09.0 040. 04. r 4.46 c -56 -29 -36 101177 BD+45 1947 2437 Gl 433.2B 11 36 06 +45 23.1 0.581 268.8 -18.9 SB K2 V 8.40 +0.96 +0.72 049.9 09.0 040. 04. r 6.41 c -53 -31 -36 2436 NN 3677 AB 11 36 08 -12 55.6 0.135 36.4 -23.8 F7 V 5.48 +0.52 051. 06. r 4.02 c +0 +25 -9 101198 BD-12 3466 BS 4488 d(m) = 5.4 sep 1.4" NN 3678 q 11 36 21 +42 36.0 0.454 343.2 +14.8 SB K5 V 8.26 +0.96 +0.82 017.9 22.2 050. 08. r 6.75 d -30 +34 +1 101206 BD+43 2135 G122-038 6 LTT 13186 NN 3679 11 36 29 -24 26.4 0.248 172.8 +96.7 G6/8 V 6.41 +0.82 +0.32 075. 10. r 5.79 c +26 -83 +44 101259 CD-24 9867 BS 4489 LTT 4310 Gl 434 11 38 25 +34 29.0 0.386 181.9 -5.9 G8 Ve 5.33 +0.72 +0.25 +0.27 116.0 05.0 116.0 05.0 5.65 a +7 -15 -4 101501 BD+35 2270 Gl 435 11 38 37 -44 07.9 0.695 289.4 +13.3 K5 Ve 7.77 +1.06 +0.90 +0.42 079.8 08.5 079.8 08.5 7.28 c -35 -25 +6 101581 CD-43 7228 2441 U273 NN 3680 q 11 38 39 -28 55.3 0.382 302.8 -12.1 G0 V 6.44 +0.66 +0.19 031.7 04.9 031.7 04.9 3.95 d -58 +3 +6 101563 CD-28 9027 CP-28:4330 LTT 4332 GJ 1148 11 39 09 +43 01.8 0.612 258.8 M3.5 K 11.90 +1.52 +1.13 +1.23 089.1 04.8 089.1 04.8 11.65 b G122-040 2443 Ross 1003 Gl 435.1 11 39 14 +05 25.5 0.446 152.3 +19. K5 K 9.60 +1.25 +1.20 +0.52 047.3 11.9 045. 08. r 7.87 d +38 -33 +7 BD+05 2529 G010-043 6 V284 NN 3681 11 39 28 +15 03.0 0.370 312. M3.5 K 12.58 +1.48S +1.24 060. 24. r 11.5 f G056-051 LTT 13214 Ross 115 Gl 436 11 39 31 +26 59.8 1.080 135.5 +9.7 dM3.5 W 10.67 +1.52 +1.23 +1.01 098.8 02.9 098.8 02.9 10.64 a +45 -20 +18 G120-068 310 V616 AC+27:28217 NN 3682 11 40 48 +25 34.9 0.204 256. m 13.83 +1.25 053. 10. r 12.45 d LTT 13220 L 1405-42 LP 375-25 Gl 438 11 40 49 -51 33.3 0.860 128.6 +0.5 K0 10.36 +1.53 +1.19 +1.08C 119.0 10.2 119.0 10.2 10.74 b +30 +9 -13 CP-51 4413 2447 NN 3683 q 11 41 04 -57 44.0 0.353 3.5 K1 V 8.21 +0.91 029.2 13.6 041. 05. r 6.27 c 101930 CP-57 4948 LTT 4350 CD-57:4096 Gl 439 11 42 04 +31 14.5 0.386 184.2 +28.6 dK8 M 8.96 +1.13 +1.06 +0.42 044. 05. r 7.18 c +7 -41 +29 BD+31 2290 G121-013 V285 Gl 440 11 42 58 -64 33.5 2.667 097.2 DQ6 11.50: +0.19 -0.63 +0.06 218.5 05.0 218.5 05.0 13.20: a 43 W082 L 145-141 GJ 1149 11 43 03 +63 22.9 0.381 202. DC9 16.39 +0.66 +0.20? 047. 05. w 14.75 c G237-028 W353 LP 63-267 Gl 441 11 43 08 +72 22.3 0.050 9.5 -25.1 dK8 M 9.02 +1.17 +1.12 +0.46 047.7 13.8 048. 06. r 7.43 c +12 -10 -21 BD+72 545 V617 Gl 443 11 44 08 -13 43.6 1.035 132.6 -128. M3 K 11.69 +1.48 +1.05 +1.07 082.0 11.9 082.0 11.9 11.26 d +42 +82 -107 314 L 829-026 Gl 442 A 11 44 08 -40 13.7 1.587 284.4 +15.3 G5 V 4.90 +0.66 +0.10 +0.22 097.1 09.0 097.1 09.0 4.84 c -68 -40 +4 102365 CD-39 7301 311 Gl 442 B 11 44 09 -40 13.4 1.592 284.4 15. * 097.1 09.0 097.1 09.0 15. * e 313 VB 5 NN 3684 11 44 23 +70 18.7 0.365 263. m 13.60 +1.25 059. 11. r 12.45 d G236-081 LP 38-393 GJ 1150 11 44 23 +51 15.4 0.12 138. +1.8 dM0 p M 9.62 +1.26 +1.19 +0.52 045. 06. r 7.89 c +10 -4 +7 BD+51 1697 V618 zero parallax: Heintz AJ 99 Gl 444 A 11 44 32 -11 32.7 0.210 254.8 +23.0 dK8 M 9.02 +1.12 +1.09 +0.45 045. 05. r 7.29 c -14 -28 +8 102392 BD-11 3178 V619 Gl 444 B 11 44 32 -11 32.7 0.210 254.8 14.2 * 045. 05. r 12.5 * c Gl 445 11 44 35 +78 57.7 0.863 055.5 -112.2 sdM4 W 10.80 +1.60 +1.08? +1.19 191.5 05.3 191.5 05.3 12.21 a +67 -56 -74 G254-029 2459 AC+79:3888 Gl 446 11 44 45 -30 00.3 0.353 229.4 +11.8 G5 V 6.48 +0.68 +0.20 +0.24 062.9 13.6 054. 08. r 5.14 d -9 -27 -16 102438 CD-29 9337 NN 3685 A 11 45 08 +00 32.0 0.303 253. m 13.25 +1.23 064. 12. r 12.28 d G010-049 LTT 13239 L 1044-70 LP 613-49 NN 3686 B 11 45 09 +00 31.8 0.303 253. m 17.6 P 064. 12. r 16.6 P d LP 613-50 sep 24" 125d (NLTT) Gl 447 11 45 09 +01 06.0 1.348 152.0 -31.1 dM4.5 W 11.12 +1.75 +1.40: +1.33 301.1 01.9 301.1 01.9 13.51 a +18 +6 -33 G010-050 315 V286 Ross 128 NN 3687 11 45 33 -34 56.8 0.165 247.5 -0.1 G5/6 V 7.09 +0.77 +0.23 049. 07. r 5.54 d -11 -8 -9 102540 CD-34 7692 NN 3688 11 45 49 -11 00.5 0.836 268.9 k 12.90 +1.46 +1.16 +1.10 044. 09. r 11.12 d 2460 LP 733-24 Gl 448 11 46 31 +14 51.1 0.511 256.5 -0.2 A3 V 2.14 +0.09 +0.07 -0.00 078.9 09.1 078.9 09.1 1.63 c -23 -19 -9 102647 BD+15 2383 2462 BET Leo Gl 449 11 48 05 +02 02.8 0.789 110.4 +4.3 SB? F9 V 3.61 +0.55 +0.11 +0.16 098.8 04.3 098.8 04.3 3.58 a +37 +3 +6 102870 BD+02 2489 2465 BET Vir GJ 1151 11 48 29 +48 40.1 1.821 237.5 -34. m 13.25 +1.84 +1.30 +1.38 121.8 03.0 121.8 03.0 13.68 a -28 -66 -32 G122-049 316 Gl 450 11 48 33 +35 32.8 0.350 321. +0.5 SB? M1 Ve 9.73 +1.51 +1.20 +0.88 123.5 13.3 123.5 13.3 10.19 c -12 +6 -3 BD+36 2219 G148-013 V135 SB? in ApJ 314, 272 GJ 1152 11 49 02 +35 28.1 0.110 255.7 -9.3 G7 IV O 9.64 +0.78 044.6 14.6 044.6 14.6 7.9 e -6 -8 -11 BD+35 2288 a parallax of 0.4" not confirmed by Heintz AJ 101, 1071 NN 3689 A p 11 49 48 +10 13.5 0.356 286.1 +10.7 K0 K 7.54 +1.06 +0.90 +0.36 018.2 20.5 063. 11. r 6.54 d -27 -9 +6 103112 BD+10 2347 LTT 13274 NN 3690 B p 11 49 45 +10 17.6 0.340 289. m 15. * 018.2 20.5 063. 11. r 14. * e LP 493-64 sep 232" 348d Gl 451 A 11 50 06 +38 04.7 7.053 145.4 -99.1 G8 VI 6.45 +0.75 +0.17 +0.29 116.0 04.2 116.0 04.2 6.77 a +265 -149 -18 103095 BD+38 2285 G122-051 44 Gl 451 B s 11 50 06 +38 04.7 7.053 145.4 12. * 116.0 04.2 116.0 04.2 12. * e CF Uma sep 2" 175d; but speckle obs. sep < 0.03" 1979.80 NN 3691 11 50 24 +24 45.3 0.298 282. m 14.60 +1.34 054. 08. r 13.26 d G121-028 Gl 452 A 11 50 43 -07 05.3 0.538 198.3 +26.7 M3 K 11.87 +1.54 +1.04 082.2 08.5 082.2 08.5 11.44 c +8 -40 +2 2470 L 901-010 Gl 452 B 11 50 44 -07 05.4 0.538 198.3 f 19.4 P 082.2 08.5 082.2 08.5 19.0 P c 2470a LP 673-42b NN 3692 11 50 45 -31 07.1 1.140 263.1 M4 K 13.61 +1.70 +1.11 +1.24 060. 14. r 12.5 e 317 LTT 4414 L 541-21 LP 907-40 NN 3693 x 11 51 18 +07 17.3 0.955 159.8 -60. M6 : 17.89 +1.72 070.6 02.6 070.6 02.6 17.13 a +50 -14 -71 2471 LP 553-59 Gl 452.1 11 51 34 +10 05.7 0.785 173.9 M3.5 K 12.77 +1.69 +1.25 +1.15 096.1 19.3 096.1 19.3 12.68 d G012-004 2472 Ross 119 Wo 9376 x 11 51 54 -51 06.7 0.34 314. G5 10.97 +0.92 +0.66 +0.34 039.0 08.5 039.0 08.5 8.93 d CD-50 6462 LTT 4428 Gl 452.2A s 11 51 55 -37 28.3 0.316 280.8 -11.5 F7 V 6.75 +0.52 J-0.04 J+0.30CJ 050.9 13.6 028. 03. r 3.99 c -53 -10 -7 103437 CD-37 7536 BS 4557 V(AB) = 6.47 d(m) = 1.3 Gl 452.2B s 11 51 55 -37 28.3 0.316 280.8 8.1 * 050.9 13.6 028. 03. r 5.3 * c sep 1.1" Gl 452.3A s 11 51 59 +19 41.4 0.445 267.9 +5.9 dG6 W 8.22 +0.71 +0.21 051.6 14.3 026. 03. r 5.29 c -70 -39 -12 103432 BD+20 2658 G121-029 6 Gl 452.3B s 11 52 02 +19 42.4 0.444 268.4 +5.7 dG7 W 8.43 +0.76 +0.27 051.6 14.3 026. 03. r 5.50 c -70 -38 -12 103431 BD+20 2659 G121-030 6 Gl 452.4 11 52 22 +29 01.2 0.361 145. -7. M0 Ve 10.52 +1.39 +1.32 +0.64 042. 08. r 8.64 d +37 -19 -1 BD+29 2228 G121-031 V136 Gl 452.5A s 11 52 29 -55 48.9 0.299 131.8 +51.1 G5 V 7.29 +0.64 J+0.12:J+0.36CJ 044.3 11.9 033. 06. r 4.88 d +56 -32 -16 103493 CP-55 4711 V(AB) = 6.72 d(m) = 0.40 Gl 452.5B s 11 52 29 -55 48.9 0.299 131.8 +55.7 7.7 * 044.3 11.9 033. 06. r 5.3 * d +58 -36 -15 sep 1.8" 207d - 3.2" 180d (1887-1956) Wo 9381 p 11 52 36 +01 15.1 0.741 272.4 M1.5 K 11.50 +1.44 +0.89 038.4 15.3 048. 10. r 9.91 d G011-031 2475 LTT 13296 LFT 862 Ross 129 comp. B: G8: opt. NN 3694 11 53 09 -18 37.6 0.602 120.6 m 14.3 * +1.26 045. 08. r 12.6 * d 2476 LP 793-44 NN 3695 p 11 55 01 +12 06.2 0.729 288.0 M2.5 K 11.86 +1.45 +1.15 +0.93 027.5 21.8 048. 11. r 10.27 d G012-012 2482 LFT 846 LTT 13307 Ross 122 Gl 453 11 55 27 -27 25.2 1.246 240.1 +49.9 SB K5 V 6.98 +1.15 +1.10 +0.42 101.9 09.4 101.9 09.4 7.02 c -19 -74 -6 103932 CD-26 8883 319 NN 3696 11 55 43 +42 51.5 0.405 161. m 14.08 +1.29 056. 10. r 12.82 d G122-058 NN 3697 11 56 27 +42 56.3 0.326 285. m 12.07 +0.93 042. 08. r 10.19 d G122-060 GJ 1153 11 56 36 -20 04.2 0.454 161.7 -12. K2 V 7.94 +0.98 +0.77 +0.34 050. 07. r 6.43 d +27 -7 -35 104067 BD-19 3382 U283 LTT 4461 NN 3698 A 11 58 09 -13 32.5 0.487 268.8 M3 K 12.74 +1.55 +1.17 058. 14. r 11.6 e 5205 LTT 4477 L 829-24 LP 734-11 NN 3699 B 11 58 08 -13 32.5 0.487 268.8 m 15. * 058. 14. r 14. * e 5204 LP 734-10 sep 7.5" 234d Gl 454 11 58 10 -10 09.7 0.501 168.1 +0.1 K0 IV 5.55 +0.77 +0.44 +0.25 078.2 06.6 078.2 06.6 5.02 b +19 -16 -17 104304 BD-09 3413 5206 Gl 454.1 x 11 58 35 -01 27.4 0.508 295.2 K4 K 10.96 +1.12 +0.98 +0.44 047.2 13.6 047.2 13.6 9.3 e G011-034 2494 LTT 4483 AC-01:240-110 NN 3700 11 59 07 -11 57.0 0.253 199. M5-6 s 12.34 +1.46 +1.05 050. 10. r 10.83 d LTT 4484 L 829-10 LP 734-14 Gl 454.2A s 11 59 13 -34 22.3 0.191 272.1 -4.0 G0 V J 7.35 +0.59 J+0.08 J+0.30CJ 045.5 15.3 027. 05. r 4.51 d -31 -11 -7 104471 CD-33 8130 V(AB) = 6.90 d(m) = 0.7 Gl 454.2B s 11 59 13 -34 22.3 0.191 272.1 8.1 * 045.5 15.3 027. 05. r 5.3 * d sep 0.6" 121d (1960) Gl 454.3 11 59 47 +43 25.1 0.017 253.0 +5.5 K0 V O 8.38 +1.15 +1.10 046. 15. r 6.7 e -3 +0 +5 104526 BD+43 2180 Gl 455 11 59 48 +28 52.0 0.791 268.3 M3 K 12.84 +1.75 +1.12 049.3 03.7 049.3 03.7 11.30 b G121-045 2497 L 1405-009 NN 3701 q 12 01 04 -42 08.7 0.349 111. +38.9 F6 V 5.15 +0.41 -0.03 037.1 10.3 037.1 10.3 3.0 e +56 -18 +6 104731 CD-41 6938 LTT 4497 FK 449 NN 3702 12 01 27 -32 44.8 0.763 275.4 M4.5 K 14.0 * +1.30 062. 10. r 13.0 * d 2506 LTT 4503 L 541-90 LP 908-11 NN 3703 12 02 40 +09 00.6 0.226 280.8 -32.2 G8 IIIa CN 4.13 +0.98 +0.63 +0.49 040.4 06.5 040.4 06.5 2.16 d -25 +4 -33 104979 BD+09 2583 BS 4608 LTT 13353 OMI Vir NN 3704 12 03 03 +69 49.1 0.479 262.0 M4 K 13.07 +1.25 076. 14. r 12.47 d G237-043 6 LFT 880 LTT 13356 Ross 689 LHS. Gl 455.1 12 03 17 -18 35.4 0.297 163. K5 V 9.99 +1.34 +1.20 +0.60 042. 09. r 8.11 d 105065 BD-18 3319 V633 Gl 455.2 12 04 15 -64 20.1 0.057 137.9 +9.0 SB F2 III 4.15 +0.34 +0.02 +0.20CJ 051.6 10.2 051.6 10.2 2.71 d +8 -6 -4 105211 CP-63 2145 ETA Cru Gl 455.3 12 05 50 -24 27.0 0.099 116.4 +2.9 SB F2 III-IV 4.02 +0.32 -0.02 +0.20CJ 070.7 11.3 070.7 11.3 3.27 d +7 -1 +0 105452 CD-24 10174 ALF Crv Gl 456 s 12 05 52 -00 12.2 0.969 265.0 +4.9 dM2 W 11.24 +1.41 +1.18 +0.70 069.1 11.6 069.1 11.6 10.44 d -54 -37 -9 G011-040 2515 V290 AC+00:1514-64 Wo 9390 A 12 06 53 -11 34.6 0.355 118.8 +4. SB G2 V 6.81 +0.66 J+0.19 J 043.3 08.8 044. 07. r 5.03 d +38 +1 -3 105590 BD-11 3246 LTT 4545 NSV 5478 Wo 9390 B 12 06 55 -11 34.5 0.355 118.8 +2.8 K5 K 9.2 * 043.3 08.8 044. 07. r 7.4 * d +38 +2 -4 LTT 4546 ADS 8440 sep 11" 90d (NLTT) NN 3705 12 07 01 -03 16.5 DA4 13.5 : 047. 09. w 11.9 : d W WD1207-032 y = 13.53 b-y = +0.05 u-b = +0.04 -> Mv = 11.88 NN 3706 q 12 07 07 +40 31.9 0.321 259.6 +0.6 K0 V 7.47 +0.79 +0.43 032.9 11.0 046. 07. r 5.78 d -26 -20 -3 105631 BD+41 2276 G123-007 LTT 13378 Gl 456.1A 12 07 20 -45 55.7 0.382 255.9 -4.2 K5 V 8.45 +1.14 +1.07 +0.54C 048.3 15.3 052. 07. r 7.03 c -29 -14 -15 105671 CP-45 5806 Gl 456.1B 12 07 23 -45 54.8 0.39 258. m 13.25 +1.56 +1.48C 048.3 15.3 052. 07. r 11.83 c L 326-041 NN 3707 12 07 31 -14 47.0 0.720 184.0 m 12.06 +1.58 +1.09 +1.24 112. 21. r 12.31 d 2520 LP 734-32 Wo 9393 12 08 26 +41 20.0 0.229 355.7 M2 V 10.67 +1.35 +0.69 044. 09. r 8.89 d G123-008 V636 AC+41:509-35 NN 3708 A 12 08 38 -19 40.8 0.255 231. M2: s 11.68 +1.59 +1.08 074. 10. r 11.03 c LTT 4562 L 758-108 LP 794-30 NN 3709 B 12 08 43 -19 41.5 0.255 231. m 12.62 +1.68 +1.16 074. 10. r 11.97 c LP 794-31 sep 85" 121d NN 3710 12 08 58 +57 41.1 0.540 130.4 DA9 15.79 +0.58 -0.20 049.4 04.6 049.4 04.6 14.26 c G197-047 2522 W NN 3711 A q 12 08 59 +53 42.1 0.222 232.1 +4.3 K2 K 8.03 +0.88 +0.56 019.3 09.8 044. 06. r 6.25 c -12 -20 +7 105963 BD+54 1499 LTT 13391 ADS 8450 NN 3712 B q 12 08 58 +53 41.9 0.220 231.9 -4.0 K3 K 8.23: 019.3 09.8 044. 06. r 6.45: c -10 -22 +0 LTT 13390 sep 12" 222d Wo 9394 x 12 09 29 +13 32.7 0.495 207.7 +95. F6 V-VI 10.18 +0.47 -0.18 +0.20 041.4 20.5 041.4 20.5 8.3 f +1 -81 +75 106038 BD+14 2481 G012-021 LTT 13394 Gl 457 12 09 36 +59 12.3 0.093 90.6 -15. dM0 M 10.04 +1.28 +1.23 +0.56 044.7 06.0 044.7 06.0 8.29 c +14 -1 -11 238087 BD+59 1428 V291 NN 3713 12 09 40 +49 06.0 0.360 143. m 12.91 +1.09 045. 09. r 11.18 d G122-074 Gl 458 A 12 09 50 +54 45.7 0.244 70.3 -17.6 dM1.5 W 9.79 +1.43 +1.16 +0.73 075.1 10.2 075.1 10.2 9.17 c +17 +5 -16 238090 BD+55 1519 G197-049 V137 Gl 458 B 12 09 51 +54 45.9 0.244 70.3 m 13.33 +1.61 +1.20 075.1 10.2 075.1 10.2 12.71 c G197-050 sep 15" in 7d (NLTT) Wo 9395 s 12 09 52 -06 04.7 0.410 221. K3 K 9.96 +1.00 +0.80 +0.52C 039.2 15.3 023. 04. r 6.77 d 106092 BD-05 3450 G013-018 LTT 4574 NN 3714 12 09 57 +39 57.3 0.239 130. M2 V 11.41 +1.51 +0.88 050. 12. r 9.9 e G123-013 LTT 18204 Gl 458.1ABs 12 09 57 -02 48.7 0.725 303.7 +14.3 G4 V 7.43 +0.71 +0.25 +0.22 046.5 08.5 046.5 08.5 5.77 d -71 -7 +24 106116 BD-02 3481 G011-045 2524 faint comp. 2" in 5d, m = 12, C&L Rv = + 14.11 +- .18 (4) NN 3715 s 12 10 24 +10 19.2 0.412 149.4 -8.8 G8 V 7.92 +0.79 +0.45 040.6 46.0 036. 06. r 5.70 d +47 -22 -18 106156 BD+10 2391 G012-022 LTT 13397 Wo 9397 s 12 10 50 +16 58.7 0.669 228.5 M1.5 K 11.96 +1.45 +0.83 040.1 13.1 035. 07. r 9.68 d G012-025 2527 V638 LFT 885 LTT 13403 Wolf 1438 Ross 127 NN 3716 12 10 53 +10 32.4 0.094 261.4 +2.3 A2 m 5.85 +0.27 +0.11 147.5 69.9 147.5 69.9 6.7 f -2 -3 +2 106251 BD+11 2440 FK 2978 GJ 1154 AB 12 11 46 +00 54.2 0.985 253.0 m 13.73 +1.77 J+1.02 J+1.42 J 118.2 03.9 118.2 03.9 14.09 a G013-022 2531 LTT 13408 V(AB) = 13.42 d(m) = 1.2 , sep 5" optical NN 3717 12 11 54 +24 52.4 0.363 175. m 12.16 +1.48 +1.12 +0.94 041. 08. r 10.22 d G059-007 LTT 13409 L 1406-34 LP 376-34 Gl 458.2 12 12 41 +49 00.7 0.230 257. -16.4 M2 V 10.52 +1.46 +0.73 054. 11. r 9.18 d -10 -17 -16 BD+49 2126 G198-037 V640 Gl 459 12 12 58 +57 18.6 0.102 87.3 -13.4 A3 V 3.30 +0.08 +0.07 056.5 08.0 056.5 08.0 2.06 d +12 -1 -11 106591 BD+57 1363 DEL Uma NN 3718 12 12 59 +39 27.9 0.319 280. m 11.89 +0.88 040. 07. r 9.90 d G123-016 Gl 459.2 s 12 14 14 +44 40.8 0.032 187.6 -53. K4 V O 9.18 +1.50 +1.76 044. 21. r 7.4 f +15 -13 -49 106783 BD+45 2014 GJ 1155 A 12 14 20 +03 14.6 0.706 292.5 +5. sdM3 13.28 +1.62 +1.14 046.0 03.4 046.0 03.4 11.59 b -71 -13 +7 G013-026 2541 LP 554-64 GJ 1155 B 12 14 20 +03 14.6 0.706 292.5 DA s 15.32 +0.38 046.0 03.4 046.0 03.4 13.63 b 2542 W 88* NN 3719 12 14 28 +31 26.1 0.090 251. -34. dM4-5e 14.15 +1.62 +1.28 051. 09. r 12.69 d -1 -6 -35 San 39 Wo 9403 s 12 15 21 +46 54.1 0.456 257.3 +16. dM1.5e W 11.50 +1.44 +0.73 049.5 16.1 033. 07. r 9.09 d -54 -39 +11 G123-019 6 V138 LTT 13429 LFT 894 NN 3720 12 16 15 +30 02.5 0.408 213. m 16.32 +1.98 065. 27. r 15.4 f LP 320-359 San 47 GJ 1156 12 16 32 +11 24.0 1.301 279.1 dM e 13.81 +1.88 +1.05: +1.59 152.9 03.0 152.9 03.0 14.73 a G012-030 324 Gl 459.3 12 16 56 +28 39.5 0.655 274.6 -1.0 M2 V 10.63 +1.44 +1.26 +0.73 049.8 10.9 049.8 10.9 9.12 d -56 -26 -9 BD+29 2279 G121-077 2544 V644 LFT 896 Gl 460 12 17 47 +26 16.7 0.147 275.8 +7.2 SB F0 IV 6.15 +0.30 +0.08 059.4 13.6 059.4 13.6 5.02 d -11 -5 +6 107326 BD+26 2329 Gl 461 AB 12 17 52 +00 51.7 0.09 103. +4.1 M0 V U 10.10 +1.47 J+1.24 J+0.81 J 063. 13. r 9.10 d +7 +0 +4 BD+01 2684 V293 RST 5366 sep 1.3" d(m) = 2.4 , V(AB) = 9.99 (= 10.15 Rossello) Gl 462 12 19 25 +42 25.1 0.548 162.7 +15.4 M0 Ve 9.45 +1.36 +1.22 +0.60 079.5 10.2 079.5 10.2 8.95 c +19 -19 +24 107596 BD+42 2296 G123-026 2548 V649 LFT 898 NN 3721 s 12 19 53 +25 27.0 0.715 254.7 M0 K 11.38 +1.34 +1.12 +0.76 047.8 27.3 036. 07. r 9.16 d G059-014 2549 LTT 13466 Wolf 409 GJ 1157 12 20 26 -46 20.7 0.798 245.5 +42. k 13.62 +1.61 +1.04 +1.30 069. 11. r 12.81 d -19 -65 -16 2552 Gl 463 12 20 45 +64 18.2 0.681 300.0 +7.7 M3 K 11.58 +1.45 +1.05 055.5 03.8 055.5 03.8 10.30 b -56 +0 -17 G237-063 2551 AC+64:14332 NN 3722 12 21 13 +67 28.0 0.240 120. m 11.25 +1.02 079. 16. r 10.74 d G237-064 LTT 17123 Gl 464 12 21 21 +12 51.6 0.188 171.9 +6.6 dM2 W 10.39 +1.44 +1.25 +0.72 049.3 11.9 049.3 11.9 8.9 e +11 -15 +2 107888 BD+13 2529a V294 AC+13:1308-25 Gl 464.1 12 22 01 +31 33.4 0.207 276.1 -4.4 G6 IV O 8.78 +0.74 +0.36 053.2 20.5 053.2 20.5 7.4 f -16 -7 -6 108021 BD+32 2241 Gl 465 12 22 13 -17 56.0 2.532 154.7 +58.0 dM4 W 11.28 +1.60 +1.13 +0.98 112.1 05.2 112.1 05.2 11.53 b +96 -71 -23 45 Ross 695 NN 3723 12 22 25 -03 56.7 0.258 213.8 +47.0 G5 8.1 * 054.7 17.0 054.7 17.0 6.8 * e +7 -43 +29 108081 BD-03 3280 LTT 4689 NN 3724 12 22 31 +23 40.1 0.327 201. m 16.58 +1.88 039. 16. r 14.5 f LP 376-62 San 71 GJ 2092 12 23 48 -65 56.0 0.186 182. +55. DA/F 13.97 +0.40 -0.54 083. 09. w 13.57 c +5 -8 -11 W L 104-2 BPM 7543 NN 3725 AB 12 24 44 +27 18.3 0.270 161.0 +1. K3 V 8.89 +1.02 J+0.92 J 042. 04. r 7.01 c +23 -20 +2 108421 BD+27 2135 G148-060 Wolf 412 ADS 8553 sep 2.3" 18d d(m) = 0.3 V(AB) = 8.28 NN 3726 C 12 24 27 +27 17.8 0.227 156. dM5 e 14.88 +1.73 +1.38 042. 04. r 13.00 c G148-059 San 76 sep 222" 260d Gl 468 12 25 55 -18 01.1 0.267 139.3 +2.7 K4 V 9.22 +1.24 +1.20 +0.48 046. 08. r 7.53 d +25 -5 -11 108581 BD-17 3632 V658 uncertain comp 35" (Worley) NN 3727 A 12 26 19 -10 23.3 0.281 273. M2 s 10.96 +1.51 +0.99 083. 16. r 10.56 d LTT 4730 Ross 948 NN 3728 B 12 26 18 -10 23.3 0.281 273. g 11. * 083. 16. r 11. * e LP 735-11 sep 4" 222d Gl 469 12 26 27 +08 42.4 0.700 245.7 M3.5 K 12.06 +1.60 +1.28 +1.20 078.0 17.0 078.0 17.0 11.52 d G012-038 2565 Wolf 414 NN 3729 12 26 37 +42 00.6 0.284 221. m 12.90 +1.21 070. 13. r 12.13 d G123-035 Wo 9407 s 12 26 39 -30 33.6 0.410 142.1 +16.2 K0 V 9.06 +0.79 +0.24 +0.26 042.5 13.6 020. 03. r 5.57 d +83 -14 -51 108682 CD-30 9942 LTT 4731 GJ 1158 12 26 49 -55 42.8 1.250 231.9 -27. M4 13.27 +1.62 +1.24 +1.24 065. 12. r 12.33 d -67 -16 -65 332 GJ 1159 A s 12 26 58 +53 49.2 1.232 275.1 m 14.21 +1.55 045.9 04.7 045.9 04.7 12.52 c G199-017 331 LP 130-225 GJ 1159 B s 12 26 58 +53 49.5 1.232 275.1 -89. M5.5-6 18.0 * 045.9 04.7 045.9 04.7 16.3 * c -88 -86 -95 330 LP 130-226 sep 21" 356d (NLTT) NN 3730 12 26 58 +23 16.4 0.180 268. dM5 14.18 +1.60 +1.26 046. 08. r 12.49 d LP 377-100 San 85 Gl 469.1 x 12 27 10 -03 03.0 0.672 210.0 +0.1 SB G8 V 9.03 +0.70 +0.13 +0.26 050.3 13.6 050.3 13.6 7.5 e -1 -56 -30 108754 BD-02 3528 G013-043 2566 NN 3731 A 12 27 22 -05 10.6 0.605 239.2 M3.5 K 13.0 * +1.20 060. 07. r 11.9 * c G013-044A 2567 LTT 4740 L 903-4A LP 675-76 NN 3732 B 12 27 22 -05 10.6 0.605 239.2 M3.5: K 14.25 +1.32 060. 07. r 13.14 c G013-044B 2568 LTT 4741 L 903-4B LP 675-77 sep 8" 62d Gl 469.2A 12 27 30 -13 07.0 0.253 260.7 +1.9 G0 V J 6.46 +0.58 J+0.05 J+0.34C 047.4 10.2 047.4 10.2 4.84 d -19 -16 -3 108799 BD-12 3647 V(AB) = 6.37 d(m) = 2.73 Gl 469.2B 12 27 30 -13 07.0 0.253 260.7 9.2 * 047.4 10.2 047.4 10.2 7.6 * d a = 1.510" P = 180.0 yr Gl 471 12 28 46 +09 05.6 0.829 230.0 +19.0 dM1 W 9.70 +1.45 +1.23 +0.72 066.8 10.2 066.8 10.2 8.82 d -18 -59 +3 BD+09 2636 G012-039 2570 V662 GJ 1160 12 28 57 +55 23.7 0.108 93.2 -5. K2 V 8.12 +0.93 +0.64 044. 07. r 6.34 d +12 +4 -3 109011 BD+55 1536 Gl 471.2 12 29 29 -15 55.2 0.432 261.9 -0.8 SB F0 IV 4.30 +0.37 +0.01 +0.21C 054.8 10.8 054.8 10.8 2.99 d -30 -22 -7 109085 BD-15 3489 ETA Crv NN 3733 12 29 54 +31 52.3 0.477 294.3 m 13.22 +1.10 041. 08. r 11.28 d G148-066 5217a LTT 13537 LP 321-35 NN 3734 12 29 56 +20 40.0 M4 s 12.90 +1.56 +1.12 +1.10 047. 10. r 11.26 d Steph 1021 Gl 472 12 30 39 -68 28.5 0.629 240.5 +0.3 K0 V 7.13 +0.85 +0.48 +0.29 076.3 11.3 076.3 11.3 6.54 d -29 -15 -22 109200 CP-68 1684 2577 Gl 473 A 12 30 51 +09 17.6 1.811 277.4 -553.7 dM5.5eJ W 13.04 +1.83 J+1.20 J+1.62 J 232.2 04.3 232.2 04.3 14.87 a -91 +152 -526 G012-043 333 Wolf 424 V(AB) = 12.43 d(m) = 0.3 Gl 473 B 12 30 51 +09 17.6 1.811 277.4 M7 13.3 * 232.2 04.3 232.2 04.3 15.1 * a FL Vir a = 0.76" P = 16.2 yr Gl 474 12 31 20 +33 39.6 0.009 195.5 -42.3 K0 III 6.24 +1.05 +0.90 053.8 11.9 053.8 11.9 4.89 d +5 -3 -42 109345 BD+34 2333 Gl 475 12 31 22 +41 37.7 0.764 292.2 +6.6 SB G0 V 4.27 +0.59 +0.05 +0.21 114.7 04.9 114.7 04.9 4.57 a -32 -4 +1 109358 BD+42 2321 2579 BET Cvn NN 3735 p 12 31 25 -14 21.8 0.531 265.6 +9.7 K3/4 V 9.05 +1.11 +1.01 +0.42 032.1 06.1 042. 05. r 7.17 c -46 -39 +0 109333 BD-13 3557 5218 V666 LTT 4772 U300 Gl 476 12 32 30 +10 06.5 0.516 235.7 +32.6 M3 K 11.42 +1.42 +1.01 +0.99 069.4 08.3 069.4 08.3 10.63 c -11 -40 +23 G012-044 2582 AC+10:95-26 GJ 1161 A 12 32 54 -34 36.3 0.228 250.5 K4 V 7.91 +1.04 +0.83 +0.40 062. 07. r 6.87 c 109524 CD-34 8280 U301 LTT 4787 LDS 413 GJ 1161 B 12 32 58 -34 37.7 0.228 251. 11.91 +1.60 +1.28 +1.01 062. 07. r 10.87 c LTT 4788 Gl 477 12 33 15 -45 39.2 0.710 186.5 -12. M1 K 11.10 +1.48 +1.13 +0.92 078.8 18.0 078.8 18.0 10.58 d -1 -2 -44 CD-45 7872 2585 Gl 478 s 12 33 45 -76 40.7 0.849 265.0 -106. m 11.00 +1.30 +1.10 +0.60 053.8 11.9 029. 04. r 8.31 d -174 +18 +6 2587 L 038-015 NN 3736 12 33 50 -04 06.1 0.504 254.3 M3: V 13.1 * +1.6 * +1.10 039.0 15.7 043. 09. r 11.3 * d G013-047 2586 LTT 4796 L 975-27 LP 675-19 M3 Kui Gl 479 12 35 11 -51 43.6 1.035 271.4 +3. M3 K 10.67 +1.54 +1.14 +1.06 121.1 07.5 121.1 07.5 11.09 b -33 -23 -1 CD-51 6859 336 CP -51: 5356 Gl 479.1 s 12 35 44 +79 29.4 0.129 274.4 -18.4 SB dG2 e W 6.96 +0.59 +0.12 052.3 13.6 034. 06. r 4.62 d -8 -21 -13 110010 BD+80 389 GJ 2095 12 36 02 -49 32.5 0.573 257.0 -12. DA6 13.96 +0.18 -0.70 060.4 08.4 060.4 08.4 12.87 d -64 +23 -25 2594 W NN 3737 12 36 10 -38 04.9 1.487 207.2 M4 K 12.74 +1.69 +1.25 +1.38 139. 27. r 13.46 d 337 LTT 4818 L 471-42 GJ 1162 12 36 15 -04 02.8 0.740 253.1 m 13.52 +1.60 +1.28 +1.23 050.5 03.1 050.5 03.1 12.04 b G013-051 2595 Gl 480 12 36 25 +11 58.4 1.163 258.5 -4.4 dM4 W 11.52 +1.48 +1.19 +1.08 080.2 04.8 080.2 04.8 11.04 b -51 -45 -11 G060-024 338 Wolf 433 GJ 2096 p 12 36 40 -77 34.4 0.900 293.1 +24.3 K5 V 9.05 +1.20 +1.04 +0.47 034.0 15.3 049. 08. r 7.50 d -52 -70 +23 109952 CD-77 568 2600 CP-77: 859 NN 3738 12 36 41 +47 18.9 0.368 101. m 12.14 +0.99 048. 09. r 10.55 d G123-049 NN 3739 12 37 16 +25 47.4 0.224 229. m 14.81 +1.63 +1.34 047. 07. r 13.17 d LTT 13593 LP 377-36 San 111 Gl 480.1 12 38 08 -43 18.4 1.047 311.7 -44. M3.5 K 12.24 +1.73 +1.39 +1.14 046.2 22.2 081. 20. r 11.8 e -69 +22 +22 340 L 399-068 Gl 481 12 38 35 +15 39.4 0.417 163.9 +24.5 K4 K 7.96 +1.12 +1.02 +0.44 066.7 05.0 066.7 05.0 7.08 b +24 -24 +18 110315 BD+16 2404 G059-033 V670 Gl 482 A 12 39 07 -01 10.5 0.568 270.8 -19.9 VAR F0 V 3.46 +0.36 J-0.03 J+0.11 098.7 06.2 098.7 06.2 3.43 b -28 -6 -18 110379 BD-00 2601 2604 GAM Vir ADS 8630 V(AB) = 2.74 d(m) = 0.06 Gl 482 B 12 39 07 -01 10.5 0.568 270.7 -19.6 F0 V 3.52 +0.09 098.7 06.2 098.7 06.2 3.49 b -28 -6 -18 110380 2605 NN 3740 12 39 15 -71 21.4 0.706 269.2 k-m 13.50 +1.23 057. 11. r 12.28 d 2608 LTT 4846 L 68-30 NN 3741 A 12 39 16 +48 31.0 0.273 135. m 11.66 +0.88 044. 08. r 9.88 d G198-071 NN 3742 B 12 39 17 +48 31.0 0.273 135. m 14.8 * 044. 08. r 13.0 * d LP 171-46 sep 6.5" 90d NN 3743 12 39 27 +55 59.9 0.119 91.4 -6.3 K3 V 8.29 +0.95 +0.71 044. 07. r 6.51 d +13 +4 -5 110463 BD+56 1618 NN 3744 12 40 59 +78 09.4 0.803 304.5 m 15.84 +1.86 051. 20. r 14.4 f G255-017 2610 LP 20-375 GJ 1163 12 41 09 +25 22.8 0.343 262. dM4 12.96 +1.63 +1.14 054. 11. r 11.62 d G059-037 LTT 18236 San 128 Gl 483 12 41 59 +52 02.1 0.432 245.6 +10.6 K3 V 7.04 +0.94 +0.72 063.1 06.8 063.1 06.8 6.04 c -21 -23 +14 110833 BD+52 1650 G199-036 Gl 484 12 42 38 +39 33.0 0.392 291.6 +80.7 G0 V 5.95 +0.55 -0.03 +0.22 063.5 07.6 063.5 07.6 4.96 c -39 +8 +76 110897 BD+40 2570 NN 3745 12 43 32 +53 11.7 0.252 281. m 14.42 +1.28 046. 08. r 12.73 d LP 13-055 NN 3746 q 12 43 55 -11 32.4 0.287 280.8 -16.8 G5 V 6.87 +0.70 +0.31 027.8 07.3 047. 08. r 5.23 d -32 -3 -10 111031 BD-11 3361 LTT 4887 NN 3747 12 44 37 -03 17.9 0.504 269.8 M3 K 12.63 +1.54 +1.11 052. 13. r 11.2 e G014-001 2634 LTT 4891 L 976-35 LP 616-13 NN 3748 12 44 45 +46 54.2 0.814 250.1 M2.5 K 11.76 +1.50 +1.03 061. 14. r 10.69 d G123-060 2633 LFT 941 LTT 13622 Ross 991 Gl 485 s 12 44 54 +31 29.4 0.247 177.3 -1.6 K4 V 9.84 +1.29 +1.24 +0.50 056.7 19.5 037. 06. r 7.68 d +18 -26 +1 BD+32 2274 G164-020 V297 Gl 486 12 45 29 +10 01.9 1.077 246.8 +18.8 dM4 W 11.38 +1.57 +1.18 +1.22 115.6 10.5 115.6 10.5 11.69 b -22 -41 +12 G060-032 341 Wolf 437 GJ 1164 A 12 45 32 -24 32.2 0.350 299.1 K4/5 V 9.02 +1.12 +0.98 +0.47 048. 05. r 7.43 c 111261 CD-24 10541 U305 LTT 4898 GJ 1164 B 12 45 31 -24 32.0 0.368 295.2 K7 K 10.04 +1.38 +1.12 +0.61 048. 05. r 8.45 c LTT 4899 NN 3749 12 45 50 +47 30.3 0.573 161.1 m 13.65 +1.16 041. 08. r 11.71 d G123-061 2637 GJ 1165 12 45 54 -15 26.9 0.093 60.9 K2 V 7.94 +0.96 +0.55 +0.36 050. 08. r 6.43 d 111312 BD-14 3581 U306 NN 3750 12 46 05 +58 36.8 DC8 : 15.56 054. 06. w 14.22 c W WD1246+586 Gl 486.1 12 46 21 +25 06.8 0.358 251.9 -8.7 G7 V 6.31 +0.70 +0.26 +0.23 040.3 14.5 060. 09. r 5.20 d -18 -22 -9 111395 BD+25 2568 Wo 9417 s 12 46 29 +60 35.5 0.109 95.8 -12.0 F6 V 5.85 +0.46 -0.04 040.8 13.8 036. 04. r 3.63 c +16 +1 -9 111456 BD+61 1320 Gl 487 12 47 04 +66 23.0 0.437 258. -3.1 M3 K 10.90 +1.64 +1.21 +1.16 116.2 10.5 116.2 10.5 11.23 b -12 -14 +0 G237-078 V676 AC+66:3955 LTT 13665 (= LTT 13669?) NN 3751 12 47 04 +09 44.8 0.431 276.3 M3.5 K 13.07 +1.56 +1.16 039.7 11.7 039.7 11.7 11.1 e G060-036 6239 LTT 13667 Wolf 439 NN 3752 s 12 47 12 +01 28.3 0.646 186.7 +2.7 G8 V 8.16 +0.69 +0.12 +0.26 040.2 12.3 026. 04. r 5.23 d +46 -97 -49 111515 BD+02 2585 G014-005 2641 LTT 13668 NN 3753 12 47 52 +55 22.3 0.046 267.5 DA4 12.31 +0.03 -0.93 066. 12. w 11.41 d W GD 319 WD1247+553 NN 3754 12 47 56 +55 04.5 1.286 192.2 DC9+ 17.82 +1.50: 040.2 00.7 040.2 00.7 15.84 a 342 W LP 131-66 V-I = 1.46 (USNO) see also ApJ 346, 456 Wo 9418 s 12 48 05 +71 27.6 0.260 230. -76.5 K8 10.08 +0.97 +0.90 039.0 08.5 020. 03. r 6.59 d +5 -94 -28 BD+71 632 G237-079 LTT 13673 NN 3755 12 48 09 +27 11.9 0.263 227. m 14.14 040. 06. p 12.15 d LTT 13677 LP 321-147 San 149 Gl 488 12 48 10 -00 29.4 0.402 185.6 +6.1 VAR M0.5Ve 8.49 +1.40 +1.26 +0.66 083.1 06.0 083.1 06.0 8.09 b +11 -21 -5 111631 BD+00 2989 G014-006 V675 GJ 1166 A 12 48 57 +22 22.5 0.187 294. +19. dM4 12.97 +1.60 +1.11 040. 06. r 10.98 d -21 -5 +20 LP 377-78 BPM 88513 San 151 GJ 1166 B 12 49 02 +22 23.3 0.187 294. +15. dM3-3.5 14.28 +1.72 +1.16 040. 06. r 12.29 d -21 -5 +16 LP 377-79 BPM 88515 San 152 sep 85" 53d (NLTT) Wo 9420 s 12 50 26 +34 00.5 0.187 267.9 +10.8 K1 V 9.42 +1.08 +0.89 +0.41 078.7 20.6 031. 05. r 6.88 d -24 -15 +11 111996 BD+34 2366 V681 LTT 13690 Wo 9421 s 12 50 37 -03 16.9 0.265 268.4 -7.1 F5 V 6.11 +0.50 +0.04 +0.16 040.7 10.2 036. 06. r 3.89 d -31 -17 -6 111998 BD-02 3593 LTT 4922 Gl 488.1 12 50 40 -39 54.4 0.066 114.1 -2.5 A7 III 4.26 +0.21 +0.12 +0.13C 054.1 15.3 054.1 15.3 2.9 e +4 +4 -3 111968 CD-39 7893 Wo 9423 12 52 11 -43 52.7 0.312 224.7 +32.0 G1 V 5.88 +0.64 +0.25 +0.18 042.8 10.2 042.8 10.2 4.0 e +1 -45 -13 112164 CD-43 7953 LTT 4935 Gl 488.2A s 12 52 22 -06 03.9 0.365 235.4 K5 K 10.42 +1.18 +1.09 +0.47 045.5 13.6 027. 04. r 7.58 d BD-05 3596 G014-012 V682A LTT 4937 Ross 970 Gl 488.2B s 12 52 21 -06 03.7 0.292 238. m 17.0 P 045.5 13.6 027. 04. r 14.2 P d V682B LP 674-34 sep. 20" 318d NN 3756 12 53 41 +51 12.3 0.820 162.7 m 14.40 +1.74 049.4 04.0 049.4 04.0 12.87 b G177-004 2651 Gl 489 12 55 07 -14 11.6 0.349 274.6 +5.1 K4 V 9.12 +1.12 +1.00: +0.43 061.7 10.2 061.7 10.2 8.07 d -21 -16 +6 112575 BD-13 3627 U310 Gl 490 A 12 55 19 +35 29.8 0.260 244. -6.9 SB? M0 Ve 10.68 +1.44 +1.13 +0.84 047.4 04.1 047.4 04.1 9.06 b -13 -23 -5 BD+36 2322 G123-075 V298 BF Cvn Gl 490 B 12 55 18 +35 29.6 0.260 244. -2.8 dM4 e W 13.20 +1.64 +1.14 +1.26 047.4 04.1 047.4 04.1 11.58 b -13 -23 -1 G164-031 Gl 491 A 12 56 28 -09 34.0 0.851 283.5 +8.0 K0 V 7.56 +0.79 J+0.37 J+0.29 J 060.4 20.8 042. 06. r 5.68 d -84 -41 +23 112758 BD-09 3595 2656 V(AB) = 7.55 d(m) = 5.2 Gl 491 B 12 56 28 -09 34.0 0.851 283.5 12.5 * 060.4 20.8 042. 06. r 10.6 * d sep 1.5" 326d - 1.6" 300d (1945-1960) NN 3757 12 56 55 +08 00.1 0.700 270.6 m+ 16.0 * +1.53 052. 09. r 14.6 * d 2657 LP 556-64 NN 3758 12 57 30 -05 21.7 0.328 279. M3.5 K 12.54 +1.56 +1.13 061. 15. r 11.5 e G014-018 LTT 4969 Ross 972 Gl 492 12 57 38 +03 45.5 0.963 207.5 DC9 15.79 +0.64 -0.10 063.9 04.5 063.9 04.5 14.82 b G060-054 2661 W095 Wolf 457 Gl 493 12 57 45 -02 26.1 0.814 269.9 -14.5 dM0.5 W 9.78 +1.20 +1.15 +0.50 059.4 10.3 059.4 10.3 8.65 d -58 -31 -10 112943 BD-01 2754 G014-019 2663 V043 Gl 493.1 12 58 05 +05 57.1 0.973 284.4 -40.0 SB dM5 e W 13.40 +1.75 +1.1 : +1.43 122.8 04.6 122.8 04.6 13.85 a -44 -2 -33 G060-055 2664 LTT 13750 Wolf 461 NN 3759 p 12 58 16 -62 55.3 0.556 221.5 dM2 10.95 +0.84 028.6 13.6 055. 09. r 9.65 d 2668 LTT 4974 LFT 963 L 147-101 BPM 7973 Gl 494 12 58 19 +12 38.7 0.714 268.3 -11.1 dM1.5e W 9.75 +1.47 +1.10 +0.87 089.9 12.6 089.9 12.6 9.52 d -32 -20 -10 BD+13 2618 G060-057 2665 V140 DT Vir Gl 496 A 13 01 05 -20 18.9 0.141 84.3 +26.7 F7 V J 6.27 +0.56 J+0.07 J+0.29C 042. 07. r 4.39 d +24 -6 +18 113415 BD-19 3629 BS 4935 ADS 8757 V(AB) = 5.57 d(m) = 0.1 Gl 496 B 13 01 05 -20 18.9 0.141 84.3 +28. 6.4 * 042. 07. r 4.5 * d +25 -7 +19 sep 0.6" (1876-1947) Gl 496.1 13 02 04 -52 09.8 1.151 224.9 +37.8 K9 V 9.06 +1.37 +1.27 +0.58 049.3 05.6 049.3 05.6 7.52 c -38 -89 -66 113538 CP-51 5750 344 CD-51:7244 LFT 966 NN 3760 13 03 12 +37 24.3 0.352 238. M4 s 11.72 +0.99 059. 11. r 10.57 d G164-042 Gl 498 13 03 29 +49 44.2 0.142 24.1 -3.3 dK8 M 9.30 +1.17 +1.04 +0.46 043. 05. r 7.47 c -2 +13 -9 113827 BD+50 1979 V685 Gl 499 A 13 03 49 +20 59.7 0.084 315.6 -1.8 dM0 W 9.44 +1.29 J+1.22 J+0.60 J 058.3 11.9 058.3 11.9 8.27 d -7 +1 -1 BD+21 2486 V141 V(AB) = 9.43 d(m) = 5.7 Gl 499 B 13 03 49 +20 59.7 0.084 315.6 -2.5 14.9 * 058.3 11.9 058.3 11.9 13.7 * d -7 +1 -2 sep 0.8" 34d - 1.0" 337d (1902-1962) Gl 499.1 13 03 57 +22 53.0 0.058 153.2 -5.1 M5 III 5.60 +1.59 +1.63 +1.31: 043.5 15.3 043.5 15.3 3.8 f +5 -3 -6 113866 BD+23 2538 FS Com NN 3761 13 04 05 -77 02.5 0.063 141.2 K3 V 8.88 +1.04 +0.84 +0.40 040. 06. r 6.89 d 113693 CD-76 570 CP-76:747 NN 3762 13 04 24 +31 08.0 0.502 159.9 m 15.48: +1.86 060. 24. r 14.4 : f 2674a LP 322-628 San 214 GJ 2097 13 04 36 +21 05.0 0.082 241. -7. m 12.58: +1.62: +1.19 +1.38 156. 23. r 13.55: d -2 -2 -7 LP 378-541 San 215 Wo 9427 13 05 15 +34 40.1 0.125 267.2 -10.2 dK8 M 9.34 +1.18 +1.10 +0.46 042. 05. r 7.46 c -11 -10 -9 BD+35 2406 V299 SpT: K3 III OP Wo 9428 13 05 57 +17 14.3 0.103 255.5 M0 s 11.80 +1.55 +1.22 +0.90 046. 08. r 10.11 d V686 AC+17:478-60 Wo 9429 13 06 19 +05 29.0 0.685 173.2 +28.1 G5 IV 6.80 +0.67 +0.18 +0.20 045.6 10.9 045.6 10.9 5.1 e +51 -58 -1 114174 BD+06 2697 G060-067 2681 LFT 969 NN 3763 13 06 24 +16 38.2 0.541 252.5 m 12.99 +1.06 040. 08. r 11.00 d G061-033 2680 LTT 13794 L 1264-69 LP 437-12 NN 3764 13 06 27 -39 52.3 1.196 142.4 M3.5 K 12.86 +1.60 +1.10 +1.18 062. 16. r 11.8 e 346 LTT 5034 L 472-66 NN 3765 13 06 45 +49 20.8 M0 s 11.04 +1.54 +1.19 +0.82 052. 09. r 9.62 d Steph 1049 Gl 500 13 07 00 -21 55.3 0.379 155.8 -12.4 SB G6 V 7.36 +0.73 +0.27 +0.37C 076.3 13.6 076.3 13.6 6.77 d +9 +1 -25 114260 BD-21 3660 GJ 1167 A 13 07 13 +29 15.2 0.379 240. dM5 14.18 +1.72 +1.33 063. 10. r 13.18 d G164-047 LDS 1365A LTT 13799 LP 322-836 San 224 comp B doesn't exist Gl 501 A 13 07 33 +17 47.6 0.450 288.8 -11.6 SB F5 V 4.98 +0.45 J-0.06 J 051.7 05.7 051.7 05.7 3.55 c -41 -10 -6 114378 BD+18 2697 ADS 8804 42 ALF Com V(AB) = 4.32 d(m) = 0.19 Gl 501 B 13 07 33 +17 47.6 0.450 288.8 -27.7 F5 V 5.17 051.7 05.7 051.7 05.7 3.74 c -44 -9 -22 114379 a = 0.662" P 25.87 yr Gl 501.1 13 08 18 +36 12.0 0.057 288.3 -14.9 SB F5 IV 8.16 +0.58 +0.07 046.9 22.2 046.9 22.2 6.5 f -5 -4 -15 114519 BD+36 2344 RS Cvn NN 3766 13 09 00 +28 50.0 0.643 221.9 m 15.89 +1.86 050. 20. r 14.4 f 2691 LP 322-936 San 232 Gl 501.2 13 09 15 -37 32.3 0.390 276.3 -15.0 VAR G3 V 4.85 +0.70 +0.31 +0.24 057.1 09.9 057.1 09.9 3.63 d -35 -6 -1 114613 CD-37 8437 NN 3767 13 09 24 +25 36.5 0.487 248.9 m 15.75 +1.79 041. 15. r 13.8 f 5240 LP 378-688 San 236 Gl 502 13 09 32 +28 07.9 1.189 317.7 +5.1 G0 V 4.26 +0.57 +0.07 +0.21 119.8 07.6 119.8 07.6 4.65 b -46 +10 +7 114710 BD+28 2193 348 BET Com NN 3768 13 09 59 +85 18.6 0.331 137. DC9 16.00 +0.78 +0.14 054.5 09.3 054.5 09.3 14.68 d G256-007 W436 LP 7-226 LP 8-46 Wo 9433 x 13 10 04 +74 07.2 0.305 279.3 -38.6 G2 9.34 +0.58 +0.02 041.9 18.8 041.9 18.8 7.5 f -16 -41 -28 BD+74 526 G255-028 LTT 13822 NN 3769 13 10 10 -02 00.0 0.166 275.2 K0 7.56 053. 06. o 6.18 c 114783 BD- 1 2784 NN 3770 13 10 11 -47 12.2 2.127 268.4 DC9+ 17.05 +1.40 067.6 03.3 067.6 03.3 16.20 b W ER 8 IAU Coll. 114 or ApJ 346, 456 GJ 1168 13 10 41 +20 27.2 0.619 283.9 dM 13.02 +1.58 +1.17 056. 11. r 11.76 d G061-041 2695 LTT 13826 LP 378-774 San 241 Gl 503 AB 13 11 08 -58 50.2 0.296 237.7 -64.8 F7 IV 4.92 +0.48 -0.03 +0.17C 052.2 07.8 052.2 07.8 3.51 d -57 +38 -16 114837 CD-58 4940 BS 4989 Cp-58:4740 sep 2.7" d(m) = 5.3, B optical ? NN 3771 13 11 26 +56 56.7 0.017 182.8 -18.7 K2 II 7.97 +1.17 +1.10 050.5 30.7 050.5 30.7 6.5 f +5 -9 -15 115019 BD+57 1424 Gl 503.2 s 13 11 34 +56 58.4 0.112 98.2 -8.9 G1 V 6.83 +0.60 +0.08 +0.19t 048.4 15.3 036. 06. r 4.61 d +15 +3 -8 115043 BD+57 1425 NN 3772 13 11 36 +04 09.8 0.728 271.7 m 13.48 +1.64 +1.16 046. 09. r 11.79 d G062-018 2699 LTT 18300 NN 3773 13 12 38 -72 52.0 0.500 249.7 m 13.05 +1.09 043. 09. r 11.22 d 2704 LTT 5075 L 69-70 Gl 503.3 13 13 16 -19 40.7 0.326 110.9 +34.2 K1 IV 5.22 +1.03 +0.87 +0.48C 046.9 10.9 046.9 10.9 3.6 e +45 -8 +12 115202 BD-19 3653 GJ 1169 13 14 14 +28 08.0 0.749 285.8 -16. m 13.26 +1.65 +1.33 +1.16 062.8 02.5 062.8 02.5 12.25 a -54 -20 -11 G149-070 2711 LTT 13849 San 259 Gl 504 13 14 18 +09 41.1 0.388 299.8 -27.4 G0 V 5.20 +0.58 +0.10 +0.20 074.2 09.0 074.2 09.0 4.55 c -31 +2 -20 115383 BD+10 2531 Gl 505 A 13 14 22 +17 17.0 0.658 113.3 +6.7 K1 V 6.59 +0.94 J+0.62 J+0.35: 084.0 11.1 084.0 11.1 6.21 c +37 +7 +1 115404 BD+17 2611 G063-018 2713 ADS 8841 V(AB) = 6.52 d(m) = 3.03 Gl 505 B 13 14 22 +17 17.0 0.658 113.3 +9.0 M1 V 9.6 * 084.0 11.1 084.0 11.1 9.2 * c +37 +7 +3 2714 sep 1.3" 122d - 6.4" 108d (1881-1959) NN 3774 13 14 28 +23 26.0 0.274 106. M2 L 11.69 +0.88 044. 08. r 9.91 d G061-048 LTT 13855 L 1337-15 LP 378-924 NN 3775 13 15 30 +02 29.9 0.360 263. m 12.97 +1.21 068. 13. r 12.13 d G062-028 LTT 13861 L 1049-51 LP 557-46 GJ 1170 13 15 41 +36 34.0 0.300 196. +23. dM2 W 11.29 +1.41 +1.14 +0.83 042.7 17.0 046. 10. r 9.60 d +11 -24 +28 G164-062 V044 Gl 506 13 15 47 -18 02.0 1.515 225.1 -8.4 G6 V 4.74 +0.71 +0.26 +0.23 112.1 12.2 112.1 12.2 4.99 c -25 -50 -33 115617 BD-17 3813 349 NN 3776 13 16 33 +33 42.1 0.004 241.9 K1 V O 8.13v +1.14 +0.94 054. 14. r 6.8 v e 115781 BD+34 2411 Gl 506.2 s 13 16 45 +85 00.9 0.136 279.7 +8.7 dF7 W 7.28 +0.50 +0.02 043.4 11.4 019. 03. s 3.67 d -33 -11 +3 116459 BD+85 222 Gl 507 A 13 17 14 +35 23.0 0.873 154.6 -4.9 dM1.5 W 9.51 +1.47 +1.20 +0.81 079.9 12.5 079.9 12.5 9.02 d +46 -25 -1 BD+35 2436 G164-064 2716 V046 Gl 507 B 13 17 14 +35 23.0 0.873 154.6 -8.5 M3 K 12.10 +1.58 +1.2 : +1.08 079.9 12.5 079.9 12.5 11.61 d +46 -25 -4 G164-065 2717 NN 3777 13 17 17 -35 08.0 0.961 241.9 M3.5 K 12.8 * +1.14 057. 11. r 11.6 * d 2718 LTT 5131 L 473-1 Gl 507.1 13 17 22 +33 36.6 0.251 240. -11.8 dM2 W 10.62 +1.51 +1.20 +0.90 050.6 10.9 050.6 10.9 9.14 d -10 -23 -8 G164-066 V045 AC+33:38922 Ross 1007 Gl 508 A 13 17 36 +48 02.4 0.147 101.0 -3.3 SB? dM1.5eJ W 8.94 +1.48 J+1.20 J+0.83 J 103.0 08.0 103.0 08.0 9.00 b +6 +2 -3 115953 BD+48 2108 V142 ADS 8862 V(AB) = 8.54 d(m) = 0.86 Gl 508 B 13 17 36 +48 02.4 0.147 101.0 9.8 * 103.0 08.0 103.0 08.0 9.9 * b a = 1.465" P = 48.85 yr Gl 508.1 13 17 47 -36 26.9 0.353 255.4 +0.1 A2 V 2.75 +0.04 +0.03 +0.00C 060.6 08.2 060.6 08.2 1.66 c -20 -19 -3 115892 CD-36 8497 IOT Cen Gl 508.2 13 18 38 +34 32.7 0.593 119.1 -23. dM1 W 10.62 +1.44 +1.20 +0.85 051.1 15.3 061. 14. r 9.55 d +45 +2 -25 BD+35 2439 G164-068 2724 V047 NN 3778 13 19 05 +04 01.7 0.504 265.9 m 11.9 * +0.92 044. 08. r 10.1 * d G062-034 2725 LTT 13881 L 1049-18 LP 557-59 NN 3779 13 20 36 +24 44.3 1.080 215.6 M3.5 K 12.93 +1.62 +1.12 +1.24 072.5 02.6 072.5 02.6 12.23 a G149-081 350 LFT 999 LTT 13887 Ross 1020 NN 3780 13 20 55 -25 38.9 0.662 250.4 m 12.90 +1.24 079. 15. r 12.39 d 2729 LTT 5161 L 617-35 LP 855-10 NN 3781 A 13 21 06 +02 58.9 0.185 1.4 +28. G5 V 7.06 +0.77 +0.38 049. 06. r 5.51 c +1 +6 +33 116442 BD+ 3 2765 LTT 13889 ADS 8883 NN 3782 B 13 21 08 +02 59.0 0.190 359.5 G5 V 7.36 +0.83 +0.51 049. 06. r 5.81 c 116443 BD+ 3 2766 LTT 13890 sep 27" 76d Gl 508.3 s 13 21 07 -13 46.8 0.763 239.2 K7 K 11.79 +1.40 +1.08 +0.77 046.6 13.1 029. 06. r 9.10 d 2731 AC-13:2264-197 Gl 509 A 13 21 14 +29 29.7 0.539 295.7 -39.0 dM0 W 9.52 +1.33 J+1.21 J+0.60 J 053.2 05.5 053.2 05.5 8.15 c -50 -13 -34 116495 BD+29 2405 G164-071 2728 V301 ADS 8887 V(AB) = 8.87 d(m) = 0.31 Gl 509 B 13 21 14 +29 29.7 0.539 295.7 dK6 W 9.8 * 053.2 05.5 053.2 05.5 8.4 * c a = 2.14" P = 229.0 yr Gl 509.1 13 21 26 +58 10.0 0.120 104.9 -6.6 M0 V 9.75 +1.26 +1.14 +0.57 049. 08. r 8.20 d +12 +2 -6 238224 BD+58 1441 V688 NN 3783 A 13 21 55 +55 11.2 0.121 102.0 -5.6 SB dA1 p 2.25 +0.02 J+0.03 J 041.4 06.1 041.4 06.1 0.34 d +13 +4 -5 116656 BD+55 1598 BS 5054 ADS 8891 Aa: a = 0.012" P = 0.056 yr, d(m) = 0.0 NN 3784 B 13 21 56 +55 10.9 0.119 106.0 -9.3 SB A1 m 3.95 +0.13 J+0.09 J 041.4 06.1 041.4 06.1 2.04 d +14 +1 -8 116657 BS 5055 a = 0.13", P = 57 yr, AB: sep = 14.4" d(m) = 1.71 Gl 510 13 23 04 -28 06.8 0.471 257.4 -14. M2.5 K 11.02 +1.53 +1.16 +1.15C 069.6 49.2 071. 17. r 10.3 e -30 -13 -9 CD-27 9225 6 NN 3785 13 23 14 +55 14.9 0.115 98.5 -8.9 SB A5 V 4.01 +0.16 +0.08 041.0 07.5 041.0 07.5 2.07 d +13 +3 -9 116842 BD+55 1603 Gl 511 s 13 23 56 -24 02.0 0.388 255.5 -10.9 K3 V 8.72 +0.89 +0.63: +0.34 040.9 07.8 033. 05. r 6.31 d -45 -34 -10 116858 CD-23 11071 Gl 511.1 q 13 24 17 +63 31.0 0.457 299.3 -30.9 dG6 W 6.50 +0.74 +0.30 026.9 11.9 062. 10. r 5.46 d -25 -24 -31 117043 BD+64 949 NN 3786 13 24 33 -30 55.0 0.614 256.6 M4 K 13.6 * +1.25 060. 11. r 12.5 * d 2739 LTT 5190 L 546-85 LP 911-13 Gl 511.2 13 24 47 -15 42.9 0.123 279.4 -12.4 K1 III 4.75 +1.10 +1.06 +0.36 057.3 11.9 057.3 11.9 3.54 d -15 +1 -6 116976 BD-15 3668 Gl 512 A 13 25 46 -02 05.6 0.482 158.9 -41.6 VAR dM4 W 11.32 +1.52 +1.23 J+1.11 083.8 11.2 083.8 11.2 10.94 c +3 +1 -50 G014-055A 5249 Ross 486 Gl 512 B 13 25 46 -02 05.6 0.482 158.9 M4 K 13.69 +1.68 +1.32 083.8 11.2 083.8 11.2 13.31 c G014-055B 5250 sep 9" 59d (NLTT) Gl 512.1 13 25 59 +14 02.7 0.628 202.3 +5.3 G2.5 Va 4.98 +0.71 +0.26 +0.24 043.2 09.6 112. 15. r 5.23 c +7 -26 +1 117176 BD+14 2621 2740 BS 5072 Gl 513 13 26 52 +11 42.9 1.228 165.0 +40.0 M5 L 12.13 +1.46 +1.00 +1.10 051.8 07.8 051.8 07.8 10.70 d +94 -73 +4 G063-032 351 L 1194-026 NN 3787 13 27 23 -51 47.7 0.684 236.3 m 13.1 * +1.12 046. 09. r 11.4 * d 2743 LTT 5212 L 257-54 Gl 514 13 27 27 +10 39.0 1.552 134.3 +14.3 M1 V 9.05 +1.50 +1.24 +0.81 138.7 02.9 138.7 02.9 9.76 a +54 -8 -3 BD+11 2576 G063-034 352 V143 Gl 514.1 13 27 29 -08 26.6 1.202 246.2 M4 : K 14.25 +1.65 +1.23 +1.35 067.4 04.9 067.4 04.9 13.39 b G014-057 353 Ross 476 Gl 515 13 27 40 -08 18.6 1.188 247.7 +37. DA5 12.31 +0.08 -0.61 061.6 03.2 061.6 03.2 11.26 b -55 -72 -14 BD-07 3632 G014-058 354 W099 LFT 1014 Wolf 485A PG GJ 1171 13 28 08 +19 26.0 1.397 200.5 14.73 +1.80 +1.86:?+1.38 069.1 05.5 069.1 05.5 13.93 b G149-094 355 NN 3788 p 13 29 08 -02 03.8 0.880 287.5 -53.3 G9 V 7.36 +0.78 +0.32 +0.29 038.5 14.9 047. 07. r 5.72 d -101 -15 -19 117635 BD-01 2832 G062-044 2747 LTT 5229 NN 3789 13 29 28 +29 32.0 0.278 235. M4 e s 11.95 +1.57 +1.26 126. 22. r 12.45 d G165-008 NN 3790 13 29 29 +23 38.7 0.282 279. m 12.26 +1.02 050. 10. r 10.75 d G150-007 LTT 13935 L 1338-13 LP 379-51 Wo 9448 A s 13 29 41 +31 23.4 0.141 281.4 SB M0 V 11.11 +1.44 J +0.70 J 048.3 07.8 048.3 07.8 9.53 d +31 2500 V691 WOR 24 V(AB) = 10.45 d(m) = 0.2 Wo 9448 B s 13 29 41 +31 23.4 0.141 281.4 11.3 * 048.3 07.8 048.3 07.8 9.7 * d V691B WOR 24 sep 0.26" 335.9d (1961.39) Gl 516 A 13 30 18 +17 04.2 0.338 127. -1.9 dM3.5e W 12.01 +1.53 J+1.25 J+1.00 J 063.0 06.3 063.0 06.3 11.01 c +24 +0 -8 G063-036 V144 AC+18:1204-96 V(AB) = 11.40 d(m) = 0.3 Gl 516 B 13 30 18 +17 04.2 0.338 127. -1.5 dM3.5e W 12.3 * 063.0 06.3 063.0 06.3 11.3 * c +24 +0 -7 LP 438-8 a = 3.17" P = 430 yr : Heintz AJ 99, 420 (1990) GJ 2102 13 31 05 +08 50.5 0.515 280.1 K0 7.98 +1.00 +0.90 +0.37 052.7 06.3 052.7 06.3 6.59 c 117936 BD+09 2776 G062-049 2754 Wo 9450 s 13 31 36 -38 38.8 0.594 132.3 +83.6 G4 V 7.29 +0.67 +0.16 +0.18 042.6 10.0 035. 06. r 5.01 d +105 -43 -26 117939 CD-38 8635 2760 LFT 1020 NN 3791 13 31 40 -26 06.6 0.788 242.9 m 14.0 * +1.28 056. 10. r 12.7 * d 2758 LP 855-34 GJ 1172 p 13 31 49 +04 55.5 0.192 133.5 +14. dM0.5 W 9.97 +1.38 +1.21 +0.68 034.7 15.3 057. 11. r 8.75 d +20 -4 +7 BD+05 2767 G062-050 V048 Wolf 1487 Wo 9452 s 13 31 52 +75 15.7 0.452 276.1 -35.0 K7 K 10.27 +1.29 +1.25 +0.52 041.1 13.6 035. 06. r 7.99 d -38 -57 -18 BD+75 510 G255-034 V695 LTT 13949 Gl 517 13 32 07 -08 05.1 0.293 250.5 -24.0 K5 K 9.31 +1.21 +1.04 +0.54 049.0 10.1 052. 09. r 7.89 d -27 -12 -20 118100 BD-07 3646 V145 EQ Vir NN 3792 q 13 32 10 -00 20.4 0.287 276. -13.2 A3 V 3.37 +0.11 +0.10 +0.06 036.9 05.8 036.9 05.8 1.21 d -36 -16 -4 118098 BD+00 3076 LTT 5252 NN 3793 13 32 25 +20 27.1 0.181 164. m 13.77 +1.18 042. 08. r 11.89 d LP 379-62 GJ 1173 13 32 51 -00 08.2 0.235 14.1 +10. K7 V U 10.28 +1.44 +1.20 +0.68 048. 10. r 8.69 d -2 +17 +18 BD+00 3077 V042 LTT 5259 U324 Wo 9453 A s 13 34 01 +74 45.3 0.440 265.7 -3.0 dK5 9.79 +1.12 +0.42 042.4 11.9 031. 03. r 7.25 c -48 -45 +13 BD+75 511 G255-038 6 LTT 13958 Wo 9453 B s 13 34 01 +74 45.3 0.440 265.7 k 13.47 +1.44 +1.12 042.4 11.9 031. 03. r 10.93 c G255-037 6 LP 21-568 sep 15" 324d (NLTT) Gl 518 13 34 13 +03 57.0 3.870 253.6 DZ9 14.65 +0.95 +0.37 +0.33 122.2 03.9 122.2 03.9 15.09 a G062-053 46 W100 Wolf 489 Gl 518.1 s 13 34 29 +08 01.6 0.837 245.7 K4 K 10.02 +1.09 +0.92 +0.44 047.1 13.6 027. 04. r 7.18 d BD+08 2735 G062-054 2766 NN 3794 13 34 33 +23 13.4 0.194 151. m 12.66 +1.03 042. 08. r 10.78 d LTT 13962 Ross 1021 Gl 518.2A x 13 34 55 +30 20.3 0.166 282.2 +3.6 G8 V O 9.30 +0.64 +0.10 047.3 13.1 047.3 13.1 7.7 e -14 -7 +6 118576 BD+30 2428 Gl 518.2B x 13 34 57 +30 20.4 0.171 281.1 +3.8 10.51 +0.83 +0.56 047.3 13.1 047.3 13.1 8.9 e -15 -7 +7 Gl 519 13 35 13 +35 58.4 0.315 101.0 -15.0 SB? dM1 W 9.04 +1.42 +1.16 +0.66 101.9 18.8 101.9 18.8 9.08 d +12 +3 -17 BD+36 2393 G165-019 V049 Gl 520 A p 13 35 49 +48 23.6 0.239 242. -28. dM0.5 W 10.17 +1.40 J+1.18 J+0.69 J-012.3 19.4 044. 06. r 8.39 c -7 -33 -18 BD+48 2138 G177-046 V303 ADS 8980 V(AB) = 9.77 d(m) = 0.8 :: Gl 520 B p 13 35 49 +48 23.6 0.239 242. 11.0 * -012.3 19.4 044. 06. r 9.2 * d sep 2.6" 272d - 2.6" 297d (1908-1965) Gl 520 C p 13 35 38 +48 23.6 0.239 242. m 14.46 +1.66 +1.26 -012.3 19.4 044. 06. r 12.68 c G177-045 NN 3795 13 36 19 +26 04.9 0.601 278.4 M3 K 12.56 +1.52 +1.08 050. 12. r 11.1 e G150-025 2771 LTT 13973 Ross 1022 NN 3796 13 36 20 -02 00.5 0.290 255. M3 K 12.12 +1.58 +0.99 053. 13. r 10.7 e G062-058 LTT 5282 Ross 488 Gl 521 13 37 20 +46 26.0 0.402 353.3 -65.3 dM2 W 10.23 +1.42 +1.08 +0.85 082.9 05.3 082.9 05.3 9.82 b -13 -9 -67 BD+46 1889 G177-050 V305 Gl 521.1 13 37 33 -03 56.4 0.627 322.2 +5.0 SB? K7 K 9.59 +1.40 +1.20 +0.65 072.2 14.4 072.2 14.4 8.88 d -32 +7 +26 118926 BD-03 3508 G062-060 2773 V146 GJ 1174 13 38 08 +44 01.3 1.144 285.2 -42. M3 K 12.76 +1.64 +1.20 062.1 04.4 062.1 04.4 11.73 b -78 -49 -30 G177-051 357 Ross 1026 GJ 1175 13 38 10 -34 12.6 0.265 130.7 K1 V 6.98 +0.86 +0.45: +0.28 060. 09. r 5.87 d 118972 CD-33 9242 U327 LTT 5300 NN 3797 13 38 13 +47 28.1 0.585 148.1 m 15.30 +1.73 045.1 07.9 045.1 07.9 13.57 d G177-052 2777 USNO 735 Gl 521.2A s 13 38 24 +50 46.3 0.143 294.8 -12.0 F7 V 6.33 +0.54 -0.03 049.4 17.0 038. 04. r 4.23 c -16 -10 -11 119124 BD+51 1859 Gl 521.2B s 13 38 26 +50 46.1 0.15 292. -13.6 10.46 +1.36 +1.11 +0.62 049.4 17.0 038. 04. r 8.36 c -16 -12 -12 NN 3798 s 13 39 00 +30 17.0 1.599 273.7 m 15.83 +1.75 044.8 06.2 044.8 06.2 14.09 d 358 LP 323-239 USNO 736 NN 3799 13 39 07 +15 04.5 0.253 284. k-m 12.09 +1.50 +1.23 043. 21. r 10.3 f G063-047 LTT 18344 Gl 522 13 39 22 +00 07.7 0.455 199.8 +45.9 M0 V U 9.74 +1.30 +1.29 +0.55 075.8 17.0 048. 08. r 8.15 d +28 -53 +23 119217 BD+00 3090 G062-062 V050 NN 3800 13 39 30 -15 45.2 0.510 268.5 m 13.5 * +1.32 082. 13. r 13.1 * d 2783 LP 798-25 GJ 1176 13 39 53 -01 25.9 0.330 240.8 K7 V 9.28 +1.19 +1.20 +0.45 045. 07. r 7.55 d 119291 BD-00 2725 G062-064 U329 NN 3801 13 40 29 +33 33.1 0.708 188.6 M3 K 11.97 +1.64 +1.19 094. 23. r 11.8 e G165-025 2784 LTT 13999 Ross 1015 NN 3802 13 40 33 +09 19.6 0.348 250. m 13.09 +1.15 051. 10. r 11.63 d G063-050 LTT 18350 Gl 524 13 41 36 -53 51. 0.44 214. k 12.50 +1.54 +1.38 +1.27C 072.2 12.0 072.2 12.0 11.79 d L 258-146 Gl 524.1 s 13 42 30 -04 22.1 0.227 239. +4.5 dM1 W 10.53 +1.34 +1.24 +0.57 044.8 08.4 044.8 08.4 8.79 d -8 -23 +1 BD-03 3527 V051 NN 3803 AB 13 42 35 +51 56.1 0.742 269.0 M3 K 12.3 * 041.1 04.9 041.1 04.9 10.4 * c G177-058 2789 LTT 14009 Ross 492 d(m) = 0.5 , sep 1.3" 33d (LTT) Gl 525 13 42 39 +18 03.7 1.896 166.7 +20.4 dM1 W 9.80 +1.41 +1.17 +0.67 079.6 04.0 079.6 04.0 9.30 b +91 -70 -4 BD+18 2776 G063-052 359 V307 Wolf 497 optical comp. 20" d(m) = 1. (Worley) Gl 525.1 13 42 50 -32 47.5 0.486 252.1 -21.6 SB F3 IV 4.23 +0.38 -0.00 +0.22C 047.0 09.7 047.0 09.7 2.59 d -46 -23 -14 119756 CD-32 9603 NN 3804 13 43 09 -17 42.6 0.623 210.2 M3.5 K 11.86 +1.56 +1.18 096. 24. r 11.8 e 2794 LTT 5346 L 762-51 LP 798-34 Gl 526 13 43 12 +15 09.7 2.325 129.8 +16.1 M4 Ve 8.46 +1.44 +1.09 +0.86 184.0 01.3 184.0 01.3 9.78 a +62 -2 -3 119850 BD+15 2620 G063-053 47 V308 NN 3805 13 44 15 +57 15.3 0.257 316. DA3 13.30 042. 04. w 11.42 c G223-024 W LTT 14019 GJ 1177 A 13 44 49 -32 10.9 0.102 105.9 K5 V U 8.94 +1.32 +1.22 +0.57 069. 08. r 8.13 c 120036 CD-31 10649 U334 A=seq GJ 1177 B 13 44 50 -32 10.9 0.121 120.8 9.12 +1.36 +1.24 +0.60 069. 08. r 8.31 c B=pr Gl 527 A 13 44 53 +17 42.3 0.483 274.4 -16.1 SB? F7 V 4.50 +0.48 +0.04 +0.15t 060.4 12.4 074. 10. r 3.85 c -29 -17 -8 120136 BD+18 2782 TAU Boo Gl 527 B 13 44 53 +17 42.3 0.483 274.4 M2 K 11.0 * 060.4 12.4 074. 10. r 10.3 * d GJ 1178 13 44 59 +10 36.7 0.884 262.7 DA7 15.08 +0.38 -0.48 050.3 03.6 050.3 03.6 13.59 b G063-054 2800 W360 GJ 1179 A 13 45 58 +23 51.6 1.484 275.6 dM4 : 15.32 +1.96 +1.58 083.4 02.4 083.4 02.4 14.93 a 362 GJ 1179 B 13 45 48 +23 49.6 1.484 275.6 DC9 15.65 +1.10 +0.47 +0.42 083.4 02.4 083.4 02.4 15.26 a 361 W438 NN 3806 A s 13 46 02 -35 27.2 0.554 250.8 +3.5 G3 IV-V 6.57 +0.55 +0.05 +0.19 040.2 21.2 034. 06. r 4.23 d -49 -60 -5 120237 CD-35 9019 2807 LTT 5358 NN 3807 B s 13 46 02 -35 27.2 0.554 250.8 +3.5 K4 : K 10.14 +1.23 +1.22 +0.52 040.2 21.2 034. 06. r 7.80 d -49 -60 -5 120237 2806 LTT 5359 sep 12" 354d (NLTT) NN 3808 13 46 17 +04 21.1 0.183 179. m 14.34 +1.34 061. 10. r 13.27 d LTT 14031 Wolf 1494 NN 3809 AB 13 46 28 +03 02.6 0.298 145. M2: K 11.19 +1.57 +1.21 +0.94 068. 13. r 10.35 d G064-027 LTT 14032 Wolf 1495 has 11.3 V, M2, comp. 0.6" Gl 528 A 13 46 47 +27 13.7 0.461 258.5 -20.7 K4 V 7.61 +1.12 J+1.04 J+0.42 J 085.1 05.4 085.1 05.4 7.26 b -19 -22 -15 120476 BD+27 2296 G150-041 6 V700 ADS 9031 v(AB) = 7.04 d(m) = 0.42 Gl 528 B 13 46 47 +27 13.7 0.461 258.5 -20.9 dK6 W 8.03* 085.1 05.4 085.1 05.4 7.68* b -19 -22 -15 a = 2.433" P = 155.75 yr Heintz AJ 94, 1077 (1987) Gl 529 13 47 05 -21 51.4 1.826 254.0 -36.8 K6 V 8.17 +1.26 +1.25: +0.49 077.1 10.0 077.1 10.0 7.61 c -94 -68 -22 120467 BD-21 3781 363 U337 NN 3810 13 47 58 -21 26.3 0.373 183. M2.5 K 12.72 +1.56 +1.12 048. 11. r 11.13 d LTT 5375 L 691-20 LP 798-44 NN 3811 13 48 03 -53 17.1 0.552 139.8 m 12.9 * +1.12 050. 10. r 11.4 * d 2813 LTT 5376 L 258-126 Gl 530 13 48 35 -24 08.4 0.647 243.3 +2.1 G5 V 6.44 +0.69 +0.27 +0.28 056.4 12.0 061. 10. r 5.37 d -26 -42 -6 120690 CD-23 11329 2814 dG5 (Wil) NN 3812 13 48 43 +36 59.0 0.441 282.6 M3.5 K 13.65 +1.26 057. 10. r 12.43 d G165-033 6 LTT 14045 Ross 1019 Gl 531 13 49 27 -50 40.5 0.595 265.4 -25.0 K1 V 7.38 +0.90 +0.56 +0.35 074.1 14.5 060. 09. r 6.27 d -52 -12 +3 120780 CD-50 8092 2817 GJ 1180 x 13 49 42 +26 53.0 0.052 244. -20.1 10.83 +0.75 +0.32 +0.21 076.0 16.3 076.0 16.3 10.23 d -5 -6 -19 BD+27 2303 Gl 532 13 50 01 +50 11.9 0.448 109.1 -44.8 dM0 p M 8.90 +1.33 +1.20 +0.58 068.6 07.0 068.6 07.0 8.08 c +32 -7 -44 234078 BD+50 2030 G177-062 V702 LTT 14050 NN 3813 13 50 11 +14 40.2 0.311 171. M2 s 11.63 +1.50 +1.00 062. 12. r 10.59 d G150-046 LTT 14049 Wolf 515 NN 3814 13 50 36 -09 01.6 0.451 134. DA6 14.60 +0.21 -0.57 048. 05. w 13.01 c W LTT 5410 L 907-37 LP 678-4 Gl 533 13 51 02 +13 11.8 0.695 194.5 +6. dM0 W 9.80 +1.40 +1.27 +0.68 071.0 13.6 071.0 13.6 9.06 d +19 -42 -3 BD+13 2721 G065-012 2821 V053 Gl 533.1 13 51 29 +65 52.5 0.565 255.9 -52.5 M1.5 K 11.83 +1.50 +0.89 045.5 13.6 042. 09. r 9.95 d -23 -78 -16 G238-054 2820 LTT 14056 NN 3815 13 51 34 +67 04.2 0.667 216.8 m 15.69 +1.90 064. 26. r 14.7 f G238-055 2819 LP 66-274 GJ 1181 AB 13 52 12 -28 50.7 0.266 249.1 K7 V 9.59 +1.45 J+1.22 J+0.76 J 071. 14. r 8.85 d 121271 CD-28 10318 U338 LTT 5419 L 619-94 sep 1.2" 34d (1950), V(AB) = 9.57 d(m) = 4.3 Gl 534 13 52 18 +18 38.9 0.369 190.0 +1.0 SB G0 IV 2.68 +0.58 +0.20 +0.20 104.7 07.6 104.7 07.6 2.78 b +8 -15 -1 121370 BD+19 2725 ETA Boo Gl 534.1A 13 53 14 -54 27.4 0.229 188.8 +4.6 G8 V 6.00 +0.78 +0.25 +0.30 087. 14. r 5.70 d +0 -8 -11 121384 CD-54 5466 Gl 534.1B 13 53 14 -54 26. 0.23 190. 13.8 P 087. 14. r 13.5 P d L 259-140 sep 33" nf d(pg) = 7.1 (NLTT) NN 3816 13 53 32 -27 49.1 0.509 259.6 m 15.3 * +1.43 053. 08. r 13.9 * d 2826 LP 912-32 Gl 534.2 13 54 01 +79 05.7 0.254 294. 0. dM1 W 10.61 +1.45 +0.74 053.0 13.6 049. 10. r 9.06 d -22 -11 -2 G255-043 V148 AC+79:4347 Gl 534.3 s 13 55 43 -33 45.2 0.516 231.5 +60.3 G5 V 8.17 +0.68 +0.16 +0.24 046.5 10.2 024. 04. r 5.07 d -9 -118 -7 121849 CD-33 9467 2834 NN 3817 13 55 49 +12 48.7 0.785 342.9 M3 K 12.26 +1.66 +1.28 +1.16 076. 18. r 11.7 e G065-019 2830 LTT 14082 Ross 837 NN 3818 13 56 11 +00 10.1 0.541 223.9 m 14.05 +1.20 039. 07. r 12.01 d G064-031 2835 LTT 14085 L 1051-35 LP 619-9 NN 3819 13 56 21 -23 18.9 0.344 261. f-g 14.93 +0.32 048. 06. w 13.34 c W LTT 5453 L 691-60 LP 856-2 NN 3820 13 56 27 -19 35.4 0.583 251.5 K2 : K 13.0 * +1.38 112. 78. r 13.2 * f 2836 LTT 5455 L 763-63 LP 799-7 Gl 535 13 57 00 +23 06.7 0.170 273.7 -57.4 dM0 p M 9.03 +1.16 +1.12 +0.44 049.0 10.1 046. 06. r 7.34 c -28 -16 -51 122120 BD+23 2640 V704 Gl 536 13 58 31 -02 25.3 0.994 307.9 M1 K 9.70 +1.46 +1.17 +0.86 095.1 08.3 095.1 08.3 9.59 b 122303 BD-01 2892 G064-035 2842 V705 Gl 536.1A s 13 59 34 +15 44.1 0.12 99. -10.5 dM0.5 J W 11.25: +1.45 J +0.72 J 045.7 18.8 034. 08. r 8.9 : e +10 +8 -15 V149 AC+16:799-62 V(AB) = 10.60 d(m) = 0.2 Gl 536.1B s 13 59 34 +15 44.1 0.12 99. +6. 11.45: 045.7 18.8 034. 08. r 9.1 : e +16 +9 +1 sep 1.1" 214d - 1.5" 195d (1946-1965) NN 3821 13 59 41 -20 45.9 0.628 125.3 M3.5 K 13.19 +1.61 +1.16 051. 13. r 11.7 e 2848 LTT 5475 L 691-8 LP 799-14 NN 3822 p 13 59 54 +13 55.9 0.140 131.5 -11. dM0.5 W 10.65 +1.47 +0.80 015.4 14.9 055. 12. r 9.35 d +7 +0 -15 V150 NN 3823 13 59 59 -24 17.7 0.545 318.4 M0.5 K 12.15 +1.70 +0.96 039.5 20.5 042. 18. r 10.3 f 2852 LTT 5477 LP 856-36 L 391-74 Gl 537 A 14 00 32 +46 34.9 0.585 094.5 -41.1 dM3 e W 9.85 +1.48 +1.1 : +0.83 089.1 04.3 089.1 04.3 9.60 b +24 +2 -45 BD+47 2112 G200-016 2849 V706 Gl 537 B 14 00 32 +46 34.9 0.585 094.5 -28.0 dM3 e W 9.95* 089.1 04.3 089.1 04.3 9.70* b +24 +7 -33 2850 NN 3824 14 00 32 +15 12.9 0.051 272.3 G5 7.12 045. 05. o 5.39 c 122676 BD+15 2658 Gl 538 14 01 05 +11 01.8 0.322 163.8 -11.6 SB G8 V 6.30 +0.74 +0.29 +0.26 065.8 06.7 065.8 06.7 5.39 c +13 -12 -19 122742 BD+11 2625 Gl 538.1 14 03 31 -26 26.5 0.150 162.9 +27.3 K2 III 3.27 +1.12 +1.04 +0.40t 050.0 03.5 050.0 03.5 1.76 b +24 -19 +3 123123 CD-26 10095 PI Hya Gl 539 14 03 44 -36 07.5 0.736 224.9 +1.3 K0- IIIb 2.06 +1.01 +0.87 +0.36 058.5 17.7 058.5 17.7 0.9 e -25 -48 -24 123139 CD-35 9260 2858 THE Cen Gl 539.1 14 03 48 -74 36.9 0.299 306.0 -22.1 G1 V 6.02 +0.58 +0.06 +0.20 039.3 10.2 049. 08. r 4.47 d -24 +2 +27 122862 CP-74 1142 NN 3825 q 14 04 49 +38 51.7 1.046 159.7 m 14.54 +1.70 +2.05 037.4 04.4 037.4 04.4 12.40 c G165-047 364 Wo 9468 x 14 06 27 -61 16.6 0.817 215.2 +40.7 G9 V 9.68 +0.78 +0.28 +0.29 042.5 07.2 042.5 07.2 7.82 d -26 -79 -56 123505 CP-60 5215 2871 LFT 1069 Gl 539.2 s 14 06 34 -30 41.5 0.523 244.2 -12. M0 K 11.81 +1.50 +0.79 044.5 08.8 044.5 08.8 10.05 d -40 -39 -11 CD-30 11195 2870 Wo 9470 14 08 07 +25 19.7 0.068 199.9 +10.8 SB F8 IV 4.83 +0.53 +0.07 040.1 13.6 040.1 13.6 2.8 e +6 -6 +11 123999 BD+25 2737 NN 3826 14 08 15 +76 05.0 0.500 312.4 M1 K 11.6 * 048.3 08.0 048.3 08.0 10.0 * d G255-049 2866 LTT 14140 AC+76:4935 NN 3827 q 14 09 05 -12 22.5 0.306 236.9 +7.6 K1 V 7.93 +0.86 +0.58 009.1 10.2 043. 07. r 6.10 d -9 -33 +2 124106 BD-11 3684 U341 LTT 5553 Gl 540 14 09 12 +80 50.4 0.577 157.7 +7.4 M1 e K 10.35 +1.43 +1.14 +0.83 058.2 03.4 058.2 03.4 9.17 b +35 +4 +32 BD+81 465 G255-051 2865 V152 NN 3828 A 14 09 39 -00 21.2 0.739 290.1 -44. M3.5 K 12.97 +1.63 +1.21 +1.04 039.7 03.9 039.7 03.9 10.96 c -96 -23 +3 G064-052 2875 LTT 5558 LFT 1076 LP 619-49 L 980-2 NN 3829 B 14 09 40 -00 21.4 0.739 290.1 m+ 21. P 039.7 03.9 039.7 03.9 19. P e G064-052 2876 LP 619-50 sep 21" 125d (LHS) Gl 540.1 14 09 54 -27 01.6 0.042 196.7 +27.0 K2 III 5.09 +1.15 +1.13 +0.54C 046.7 18.8 046.7 18.8 3.4 f +18 -16 +12 124206 CD-26 10158 NN 3830 14 10 10 -03 04.9 0.368 205.8 K1 K 7.03 +0.74 +0.24 051. 08. r 5.57 d 124292 BD- 2 3804 G064-054 LTT 5565 Gl 540.2 14 10 26 -11 47.2 0.758 237. dM5.5e W 13.86 +1.53 +0.83 +1.38 086. 18. r 13.53 d 2880 LTT 5568 Ross 845 Wo 9472 14 10 53 -06 43.6 0.219 47. dM0 M 10.16 +1.43 +1.23 +0.67 052. 08. r 8.74 d BD- 6 3950 G124-012 V711 LTT 5574 NN 3831 AB 14 11 38 -15 07.3 0.219 200. K4 V 10.40 +1.28 J+0.96 J+0.72 J 040. 06. r 8.41 d 124498 BD-14 3902 U342 LTT 5580 L 836-121 Oo 587 sep 1.6" d(m) = 3.4 V(AB) = 10.35 NN 3832 C 14 11 34 -15 07.1 0.219 200. m 13.96 +1.60 +0.99 +1.21 040. 06. r 11.97 d LTT 5581 L 836-122 Oo 586 sep 65" 279d NN 3833 14 11 47 +30 26.9 0.433 294.1 K4 K 8.04 +1.08 +0.95 +0.41 062.9 09.0 062.9 09.0 7.03 d 124642 BD+30 2494 G165-056 6 LTT 14171 NN 3834 14 12 09 +23 41.9 0.483 203.4 m 13.50 +1.15 042. 08. r 11.62 d G150-074 5268 LTT 14173 L 1340-16 LP 381-17 Gl 540.3 14 12 28 -44 46.0 0.196 139.0 +3.4 G4 V 6.31 +0.60 +0.07 +0.32C 048. 09. r 4.72 d +11 +0 -16 124580 CD-44 9181 NN 3835 14 12 32 +10 38.9 0.332 179. M2 L 12.37 +1.52 +1.21 043. 20. r 10.5 f G065-036 LTT 14175 L 1196-40 LP 499-54 GJ 1182 14 13 04 +04 54.0 1.060 225.3 +4. m 14.30 +1.72 +1.3 : +1.47 071.8 03.4 071.8 03.4 13.58 b -7 -70 +0 G065-039 366 NN 3836 14 13 23 +45 15.1 0.743 250.2 M2.5 K 11.6 * 061.3 04.6 061.3 04.6 10.5 * b G178-010 2884 LTT 14183 Ross 992 Gl 541 14 13 23 +19 26.5 2.281 208.8 -5.0 K2 III ep -0.10 +1.20 +1.26 +0.47 091.2 05.2 091.2 05.2 -0.30 b +25 -116 -3 124897 BD+19 2777 48 ALF Boo Wo 9473 14 13 23 -05 45.8 0.436 181.1 +14.6 F6 III 4.08v +0.52 +0.04 +0.16 046.6 10.5 046.6 10.5 2.42v d +27 -36 -12 124850 BD-05 3843 LTT 5603 Wo 9474 A s 14 14 24 +51 35.8 0.178 299.8 -18.7 A7 V 4.75 +0.20 +0.06 046.0 11.9 037. 05. r 2.59 c -21 -15 -14 125161 BD+52 1784 Wo 9474 B s 14 14 26 +51 36.4 0.173 297.2 -20.8 K1 V 8.23 +0.82 +0.39 046.0 11.9 037. 05. r 6.07 c -20 -17 -15 NN 3837 14 14 29 +46 19.0 0.247 309.7 -8.1 A0 p 4.18 +0.08 +0.05 040.8 08.8 040.8 08.8 2.23 d -29 -6 -5 125162 BD+46 1949 LTT 14190 LAM Boo NN 3838 14 14 39 +10 49.5 0.26 :253. M2 s 11.52 +1.52 +1.27 +0.93 055. 10. r 10.22 d G065-040 LTT 14191 L 1196-39 LP 499-59 NN 3839 14 14 55 +31 56.7 0.606 256.9 m 13.10 +1.36 115. 17. r 13.40 d G165-061 2887 LFT 1085 LTT 14193 LP 325-15 L 1484-43 Gl 541.1 14 15 21 -07 18.5 0.351 131.0 -12.8 SB? G8 V 6.47 +0.73 +0.35 +0.22 057. 09. r 5.25 d +15 +4 -28 125184 BD-06 3964 NN 3840 14 15 26 -00 17.5 0.382 226. k-m 12.76 +1.59 +1.17 058. 26. r 11.6 f G064-063 LTT 5623 L 980-1 LP 619-64 Gl 541.2 14 15 29 +45 40.5 0.041 113.0 dM0 p M 10.25 +1.44 +1.22 +0.69 052. 08. r 8.83 d BD+46 1951 V716 Gl 542 14 15 30 -59 08.3 0.947 209.5 -14.9 K3 V 6.66 +1.03 +0.94 +0.34 104.9 09.4 104.9 09.4 6.76 b -33 -12 -29 125072 CP-58 5467 2892 Gl 542.1A s 14 16 10 -25 35.4 0.507 313.2 -21.0 F5 V 5.87 +0.50 -0.10 +0.20 046.8 10.1 039. 05. r 3.83 c -54 +6 +36 125276 CD-25 10271 2891 Gl 542.1B s 14 16 10 -25 35.4 0.507 313.2 13.3 * 046.8 10.1 039. 05. r 11.3 * c Gl 542.2 14 16 20 -06 22.1 0.430 184.5 +9.6 K5 K 9.10 +1.30 +1.18 +0.56 041.8 06.9 041.8 06.9 7.21 d +24 -40 -18 125354 BD-05 3853 G124-022 V715 Gl 543 s 14 16 36 -07 03.8 1.355 235.5 -97. M3 K 13.40 +1.64 +1.09 +1.04 054.1 08.6 054.1 08.6 12.07 d -97 -88 -79 G124-023 368 Wolf 534 NN 3841 14 16 51 +13 14.0 0.110 108.2 -3. VAR dF1 5.41 +0.38 -0.03 040.4 10.3 040.4 10.3 3.4 e +10 +5 -8 125451 BD+13 2782 Gl 544 A 14 17 00 -04 55.2 0.643 258.5 -9.1 K1 V 7.58 +0.84 +0.52 +0.30 052.6 06.2 052.6 06.2 6.18 c -39 -43 +6 125455 BD-04 3665 G124-024 2894 U345 Gl 544 B 14 17 00 -04 55.2 0.643 258.5 M4 K 15.1 * +1.30 052.6 06.2 052.6 06.2 13.7 * c 2895 Gl 545 14 17 29 -09 22.8 1.062 215.2 +75. M4 K 12.9 : +1.59 +1.14 +1.20 091.1 13.6 091.1 13.6 12.7 : d +42 -73 +39 G124-025 369 Ross 848 NN 3842 14 18 02 +39 16.7 M0:e: s 12.31 +1.51 +1.00 +1.03 049. 10. r 10.76 d Steph 1145 Gl 545.1 14 18 20 -40 09.9 0.510 257.6 +3.1 K3/4 V 9.02 +1.10 +1.05 +0.47 042.4 06.2 047. 05. r 7.38 c -32 -40 +8 125595 CP-39 6278 2900 U348 K3 (Kui) NN 3843 14 18 40 -00 53.1 0.625 163.6 M3 K 13.15 +1.66 +1.21 059. 14. r 12.0 e G124-027 2899 LFT 1096 LTT 5651 LP 620-3 L 980-5 NN 3844 14 18 51 +27 49.1 0.293 292. m 12.62 +1.03 043. 09. r 10.79 d G166-021 LTT 14214 L 1412-31 LP 325-26 Gl 546 14 19 48 +29 51.7 0.711 243.3 -37.2 SB? K8 V 8.55 +1.26 +1.24 +0.52 069.1 07.2 069.1 07.2 7.75 c -23 -53 -20 BD+30 2512 G166-022 2903 V312 SB? in ApJ 314, 272 NN 3845 14 20 19 -22 03.2 0.536 210.2 m 15.0 * +1.33 043. 07. r 13.2 * d 2906 LP 857-29 Gl 547 14 20 42 +01 28.5 0.528 155.1 -18.9 G1 V 6.27 +0.63 +0.09 +0.23 057.9 05.8 057.9 05.8 5.08 c +21 -15 -39 126053 BD+01 2920 G065-047 2907 NN 3846 14 22 27 +09 06.7 0.570 71.3 m 12.26 +1.63 +1.23 +1.10 066. 13. r 11.36 d G065-049 2913 LTT 14237 L 1124-13 LP 500-19 NN 3847 14 22 45 -20 02.4 0.570 286.9 m 14.7 * +1.29 042. 07. r 12.8 * d 2916 LP 800-6 Gl 548 A 14 23 24 +23 51.4 1.376 145.0 +8.6 dM1 W 9.75 +1.44 +1.26 +0.73 063.7 06.4 063.7 06.4 8.77 c +98 -22 -21 BD+24 2733 G166-027 371 V153 Gl 548 B 14 23 27 +23 51.6 1.373 144.7 +7.7 dM2 W 10.00 +1.46 +1.26 +0.79 063.7 06.4 063.7 06.4 9.02 c +98 -21 -21 G166-028 372 Gl 549 A 14 23 30 +52 04.9 0.468 211.2 -11.4 F7 V 4.06 +0.50 +0.01 +0.16t 070.0 11.9 081. 07. s 3.60 b +8 -28 +4 126660 BD+52 1804 THE Boo Gl 549 B 14 23 29 +52 03.7 0.471 210.8 -11.3 M3 K 11.50 +1.50 +1.02 070.0 11.9 081. 07. s 11.04 b +9 -28 +4 G200-037 6 Gl 550 s 14 24 10 -51 42.6 0.306 277.5 +11.8 G5 V 7.83 +0.70 +0.21 +0.34C 056.6 13.6 030. 05. r 5.22 d -22 -37 +25 126525 CD-51 8206 NN 3848 14 24 44 +24 01.3 DC8 15.41 058. 06. w 14.23 c W WD1424+240 GJ 1183 A 14 25 23 -00 09.2 0.412 283. m 13.95 +1.65 +1.32 +1.36 061.8 03.7 061.8 03.7 12.90 b G124-043 GJ 1183 B 14 25 24 -00 09.1 0.412 283. m 14.03 +1.68 +1.24 +1.37 061.8 03.7 061.8 03.7 12.98 b G124-044 GJ 2108 14 25 24 -81 07.0 0.45 208. +58. DA6 13.75 +0.25 -0.53 044. 05. w 11.97 c -29 -24 -33 W110 LTT 5712 L 19-2 BPM 784 Gl 550.1 s 14 25 31 +24 03.8 0.502 279.4 -59.0 dM0 W 10.92 +1.26 +1.08 +0.51 050.2 13.4 025. 04. r 7.91 d -92 -61 -19 BD+24 2735 G166-029 2918 V154 Gl 550.2A 14 25 37 -02 00.3 0.142 267.9 -10.1 SB? G2 IV 4.83 +0.72 J+0.21 J+0.36CJ 044.6 08.8 044.6 08.8 3.08 d -16 -9 -3 126868 BD-01 2957 PHI Vir ADS 9273 V(AB) = 4.81 d(m) = 4.15 Gl 550.2B 14 25 37 -02 00.3 0.142 267.9 -8.0 SB G4 V 9.0 * 044.6 08.8 044.6 08.8 7.2 * d -14 -9 -1 sep 4.8" 110d (1829-1958) Gl 550.3 14 26 03 -46 14.3 0.18 196. K5 C 10.35 +1.44 +1.26 +0.87C 046.1 10.2 048. 08. r 8.76 d CP-45 6863 Gl 551 14 26 19 -62 28.1 3.809 281.7 -16. dM5 e 11.05: +1.83: +1.43 +1.66 771.8 04.1 771.8 04.1 15.49: a -25 -2 +13 49 Proxima Cen NN 3849 14 26 37 +33 24.6 0.802 206.2 -21. dM9 19.74 095.0 05.7 095.0 05.7 19.63 b +10 -43 -11 2924 LP 271-25 NN 3850 14 26 37 +12 20.6 0.127 303.9 G5 8.38 046. 05. o 6.69 c 127068 BD+12 2700 NN 3851 14 26 40 +46 07.8 0.907 275.6 -68. M5.5: 16.99: +2.22: 045.0 08.2 045.0 08.2 15.26: d -73 -87 -28 2921 LP174-340 USNO 738 Gl 552 14 27 11 +15 44.2 1.711 321.8 +7.5 dM2.5 W 10.68 +1.47 +1.17 +0.94 056.9 08.1 056.9 08.1 9.46 d -125 +27 +64 BD+16 2658 G135-056 373 V718 Gl 552.1 14 27 30 -53 52.6 0.32 217. k-m 11.63 +1.51 +1.12 +1.27C 052.5 13.6 061. 13. r 10.56 d L 260-093 NN 3852 q 14 27 39 +42 01.2 0.272 144.9 +0.4 G5 V 6.35 +0.70 +0.21 030.1 09.4 059. 10. r 5.20 d +22 -3 -1 127334 BD+42 2508 LTT 14271 NN 3853 14 27 50 +29 47.7 0.516 206.3 m 14.66 +1.33 050. 08. r 13.15 d G166-033 2925 Gl 553 14 28 12 -08 25.3 1.283 259.9 -26.8 K7 V 9.40 +1.40 +1.22 +0.66 066.1 04.0 066.1 04.0 8.50 b -70 -65 +5 127339 BD-07 3856 G124-047 374 V719 Gl 553.1 14 28 20 -12 04.1 0.538 227.0 M3 K 11.92 +1.57 +1.33 +1.18 083.8 23.9 087. 21. r 11.6 e 2932 AC-12:2306-155 NN 3854 ABs 14 28 34 -15 24.8 0.430 150.2 +29.2 G5 V J 8.38 +0.71 J+0.17 J 039.4 11.9 023. 04. r 5.19 d +73 -33 -48 127356 BD-14 3970 LTT 5735 ADS 9291 V(AB) = 7.99, sep 2.3" 90d d(m) = 0.9 G6 Kui Gl 554 14 28 42 +35 40.3 0.525 290.7 -12.0 dK5 W 8.70 +1.04 +0.91 +0.40 054.8 20.5 044. 06. r 6.92 c -52 -25 +7 127506 BD+36 2500 G178-031 2931 NN 3855 14 29 21 +59 56.2 0.825 282.4 +21. M6.5 17.88 103.3 01.3 103.3 01.3 17.95 a -33 -8 +27 2930 LP 98-79 NN 3856 14 29 48 +16 14.1 0.18 :108. m 13.61 +1.28 067. 11. r 12.74 d LP 440-38 GJ 1184 14 29 48 +11 34.2 0.219 21.3 -39.3 K5 s 9.69 +1.21 +1.17 +0.57 041.5 04.0 041.5 04.0 7.78 c -27 +22 -31 BD+11 2687 G135-059 V720 Wo 9485 NN 3857 s 14 30 01 +05 59.6 0.322 343. dM0 M 10.64 +1.23 +1.14 +0.60 047.7 05.3 047.7 05.3 9.03 c G065-056 V721 LTT 14280 NN 3858 14 30 32 +49 52.4 0.595 259.6 m 13.26 +1.17 051. 10. r 11.80 d G200-046 2936 LP 174-355 Wo 9486 s 14 30 54 -09 42.5 0.561 206.9 K4 K 10.54 +1.25 +1.21 +0.54 042.7 10.2 029. 05. r 7.85 d BD-09 3964 G124-051 2940 LTT 5754 LFT 1117 NN 3859 14 31 05 +81 01.9 0.142 211.4 G5 6.91 +0.76 +0.34 054. 07. r 5.57 c 128642 BD+81 482 Gl 555 14 31 35 -12 18.6 0.690 330.3 +9. M3 K 11.31 +1.64 +1.20 +1.28 159.0 06.6 159.0 06.6 12.32 a -7 +3 +21 BD-11 3759 2945 Gl 556 14 31 51 +53 07.4 0.310 321.7 +11.5 K3 V 7.23 +0.99 +0.84 069.8 09.0 069.8 09.0 6.45 c -21 +6 +9 128165 BD+53 1719 G200-049 Gl 557 14 32 30 +29 57.7 0.227 55.6 +0.9 VAR F2 V 4.46 +0.36 -0.08 064.1 18.7 064.1 18.7 3.5 e +2 +16 -5 128167 BD+30 2536 SIG Boo Gl 558 p 14 32 55 +33 57.7 0.788 287.1 -51.9 dM0.5 W 9.58 +1.28 +1.17 +0.54 038.8 05.9 038.8 05.9 7.52 d -91 -58 -14 BD+34 2541 G166-038 2948 V313 Gl 558.1 s 14 33 32 -67 42.7 0.448 229.0 -30.0 F8 V 6.04 +0.50 -0.02 +0.16 049.2 07.2 039. 03. s 4.00 b -60 -12 -13 128020 CP-67 2616 NN 3860 14 33 33 +09 58.0 0.317 141.3 -15. K0 7.50 +0.99 +0.78 067. 11. r 6.63 d +12 -4 -24 128311 BD+10 2710 G066-011 LTT 14312 NN 3861 14 35 24 +58 34.4 0.907 137.0 m 11.74 +1.06 071. 14. r 11.00 d G223-074 2952 LP 98-132 NN 3862 14 35 54 +18 30.9 0.078 202.5 -14.4 gK2 5.91 +1.10 +0.99 045.6 18.7 045.6 18.7 4.2 f -3 -10 -13 128750 BD+18 2906 Gl 559 A 14 36 11 -60 37.8 3.689 281.1 -26.2 G2 V 0.01 +0.64 +0.23 +0.22 749.0 04.7 749.0 04.7 4.38 a -32 +4 +14 128620 CP-60 5483 50 ALF Cen Gl 559 B 14 36 11 -60 37.8 3.689 281.1 -18.1 K0 V 1.34 +0.84 +0.64 +0.29 749.0 04.7 749.0 04.7 5.71 a -26 -1 +14 128621 51 NN 3863 14 36 37 -74 55.5 0.129 102.6 G5 V 6.73 045. 05. o 5.00 c 128400 CP-74 1218 Gl 559.1 s 14 37 56 +64 30.4 0.149 255.6 -23.1 SB dG0 e W 7.54 +0.61 +0.03 047.5 12.1 026. 04. r 4.61 d -7 -35 -3 129333 BD+64 1017 Gl 560 A 14 38 26 -64 45.5 0.300 218.1 +7.2 F0 Vp 3.19 +0.24 +0.11 +0.02 054.2 09.0 054.2 09.0 1.86 d -12 -21 -13 128898 CP-64 2977 ALF Cir Gl 560 B 14 38 26 -64 45.5 0.300 218.1 +7.0 K5 V 8.47 +1.15 +1.24 +0.42 054.2 09.0 054.2 09.0 7.14 d -12 -21 -13 Wo 9490 A 14 40 16 +19 41.5 0.324 235.1 -28.7 K5 K 9.74 +1.29 J+1.27 J+0.59 J 053.4 03.5 053.4 03.5 8.38 b -16 -32 -19 BD+20 3010 G135-083 V155A ADS 9352 LTT 14351 V(AB) = 9.12 d(m) = 0.28 Wo 9490 B 14 40 16 +19 41.5 0.324 235.1 10.0 * 053.4 03.5 053.4 03.5 8.6 * b V155B a = 0.624" P = 51.337 yr Wo 9490 C 14 40 09 +19 43.1 0.298 234. -28. K5 K 10.08 +1.34 +1.28 +0.58 053.4 03.5 053.4 03.5 8.72 b -15 -30 -19 BD+20 3009 G135-082 V155C LTT 14350 sep (AB-C) 135" 309d (NLTT) Wo 9491 14 40 25 -05 26.5 0.337 161.9 +4.7 F2 III 3.88 +0.38 -0.02 045.5 09.4 045.5 09.4 2.17 d +24 -18 -19 129502 BD-05 3936 LTT 5845 Gl 561 x 14 41 09 +26 57.7 0.330 270.0 -77.4 dK0 M 9.67 +0.73 +0.29 052.6 15.3 052.6 15.3 8.3 e -44 -40 -58 BD+27 2411 G166-042 Wo 9492 14 41 28 +66 16.1 0.332 261. M3 s 10.83 +1.55 +0.96 083. 16. r 10.43 d G239-025 V723 LTT 14363 NN 3864 A 14 41 44 -22 02.3 0.363 200.9 K2/3 V 9.32 +1.17 +0.44 040. 05. r 7.33 c 129715 BD-21 3954 LTT 5855 NN 3865 B 14 41 49 -22 01.8 0.346 198. k-m 16.3 P 040. 05. r 14.3 P c LP 858-23 sep 69" 68d (NLTT) Wo 9493 14 42 54 +17 10.5 0.083 232.3 -9.0 K0 III 4.60 +0.98 +0.75 043.2 08.5 043.2 08.5 2.78 d -5 -10 -6 129972 BD+17 2780 Gl 561.1A s 14 43 06 -25 13.9 0.184 234.1 -19.7 F2 III-IV 5.10 +0.34 J+0.09 J+0.18CJ 047.5 13.6 031. 04. s 2.56 c -26 -18 -13 129926 CD-24 11661 BS 5497 ADS 9375 V(AB) = 4.94 d(m) = 1.98 Gl 561.1B s 14 43 07 -25 14.0 0.160 238.8 -20.6 dF9 W 7.14* 047.5 13.6 031. 04. s 4.60* c -27 -14 -11 sep 8.65" (1954) Gl 562 14 44 03 +16 43.1 0.938 187.4 +44.9 K5 V 9.25 +1.27 +1.17 +0.53 065.8 07.2 065.8 07.2 8.34 c +58 -49 +29 BD+17 2785 G136-013 2974 V722 NN 3866 14 44 41 -17 29.5 1.177 252.6 DC9 16.48 +0.94 069. 04. 069. 04. 15.67 b 378 W LP 801-9 NN 3867 14 44 45 +02 54.8 0.281 256.4 G8 V O 7.78 +0.90 +0.57 045. 07. r 6.05 d 130307 BD+03 2938 G066-024 LTT 14377 GJ 1185 s 14 45 21 -02 57.5 0.657 306.4 m 13.28 +1.63 +1.20 +1.01 050.5 03.6 050.5 03.6 11.80 b G124-072 2979 Gl 563.1 p 14 46 03 +38 40.6 0.176 209.0 -13.5 dM2 M 9.71 +1.32 +1.14 +0.55 019.1 06.3 047. 07. r 8.07 d +4 -21 -6 BD+39 2801 V884 Gl 563.2A p 14 46 42 -25 53.8 1.217 260.7 +22. M3 K 11.66 +1.49 +1.05 +0.87 038.6 08.4 048. 08. r 10.07 d -52 -100 +48 CD-25 10553 380 LTT 5883 Gl 563.2B p 14 46 40 -25 54.0 1.217 260.7 +44. M3 K 12.06 +1.52 +1.05 +0.93 038.6 08.4 048. 08. r 10.47 d -35 -108 +59 379 LTT 5884 Gl 563.3 s 14 47 55 +07 01.3 0.603 265.3 -31.3 K2 V 9.08 +0.96 +0.76 +0.36 051.9 13.6 031. 04. r 6.54 c -69 -68 +12 130871 BD+07 2850 G066-031 2983 Gl 563.4 14 47 55 -15 47.4 0.123 235.2 -23.5 SB F5 IV-V 5.15 +0.41 -0.03 +0.11 048.6 10.2 048.6 10.2 3.58 d -21 -5 -15 130819 BD-15 3965 Gl 564 14 48 02 +24 07.0 0.146 78.1 -2.7 G2 V 5.85 +0.56 +0.02 +0.20 069.7 08.5 069.7 08.5 5.07 c +3 +7 -6 130948 BD+24 2786 Gl 564.1 14 48 06 -15 50.1 0.129 236.6 -46.7 A3 IV 2.75 +0.15 +0.09 -0.03 053.6 09.1 053.6 09.1 1.40 d -39 +2 -29 130841 BD-15 3966 NN 3868 A 14 48 37 +09 55.7 0.225 283.4 -35.6 dG5 7.40 +0.76 +0.34 043. 06. r 5.57 d -37 -14 -17 131023 BD+10 2752 LTT 14397 NN 3869 B 14 48 37 +09 55.6 0.225 283.4 k 8.9 * 043. 06. r 7.1 * d LTT 14398 ADS 9410 sep 8" 227d Gl 565 14 48 50 -24 05.6 1.033 245.8 -65.4 K5 V 7.83 +1.00 +0.88 +0.36 067.3 07.1 067.3 07.1 6.97 c -85 -40 -26 130992 CD-23 11940 383 U362 Gl 566 A 14 49 05 +19 18.4 0.171 127.2 +2.2 G8 Ve 4.70 +0.73 +0.22 +0.28 149.1 03.6 149.1 03.6 5.57 a +6 +1 -1 131156 BD+19 2870 XI Boo Gl 566 B 14 49 05 +19 18.4 0.171 127.2 +3.1 K4 Ve 6.97 +1.16 +1.15 +0.44 149.1 03.6 149.1 03.6 7.84 a +6 +1 +0 NN 3870 14 49 58 +00 22.6 0.320 163. M2 K 12.58 +1.58 +1.12 +1.00 039. 09. r 10.5 e G066-036 LTT 14407 Wolf 555 NN 3871 14 50 05 +12 36.0 0.233 194. k 11.61 +1.52 +1.21 061. 29. r 10.5 f G066-037 LTT 14408 L 1198-31 LP 501-31 NN 3872 14 51 03 +28 42.6 0.120 306.1 -43.7 K0 V 7.96 +0.86 +0.52 041. 07. r 6.02 d -27 -15 -34 131509 BD+29 2592 Gl 567 14 51 07 +19 21.2 0.497 295.9 -31.0 SB K2 V 6.02 +0.84 +0.49 +0.30 086.9 04.1 086.9 04.1 5.72 b -36 -14 -14 131511 BD+19 2881 5279 GJ 1186 14 51 13 +11 47.0 0.733 174.5 m 15.29 +1.82 +1.40 053.9 04.1 053.9 04.1 13.95 b G136-027 2995 Gl 568 A 14 51 41 +23 45.5 0.692 278.7 -35.7 M3.5 J K 12.19 +1.61 J+1.24 J+1.22 J 093.9 08.1 093.9 08.1 12.05 b -38 -28 -15 G166-053 2997 Ross 52 V(AB) = 11.66 d(m) = 0.5 Gl 568 B 14 51 41 +23 45.5 0.692 278.7 12.7 * 093.9 08.1 093.9 08.1 12.6 * b a = 0.69" P = 34.1 yr Heintz AJ 99, 420 (1990) Gl 569 AB 14 52 08 +16 18.3 0.335 108.4 -8.4 dM0 e M 10.20 J+1.48 +1.15 +0.96 095.6 11.4 095.6 11.4 10.10 Jc +9 +5 -16 BD+16 2708 G136-028 V157 CE Boo comp 5.1" 17.5d NN 3873 14 52 26 +35 45.8 0.838 169.3 M3.5 K 12.31 +1.20 086. 16. r 11.98 d G178-055 2998 LTT 14424 Ross 1041 NN 3874 14 52 29 +10 09.1 0.514 216.8 M0.5 K 11.30 +1.40 +1.11 +0.80 042. 08. r 9.42 d G066-041 2999 LTT 14422 L 1198-67 LP 501-40 NN 3875 14 53 03 +41 20.8 0.266 301. m 14.67 +1.28 041. 07. r 12.73 d LP 222-015 NN 3876 q 14 53 34 +82 43.2 0.284 144.3 -44.0 F9 V 5.64 +0.68 +0.17 012.2 06.2 065. 06. s 4.70 c +36 -27 -18 133002 BD+83 431 LTT 14431 NN 3877 x 14 53 42 -27 57.1 0.965 210.1 dM8 17.05 +1.34 161. 06. 161. 06. 18.08 a 3003 LP 914-54 see in Ruiz et al AJ 100, p 1270 Gl 569.1 14 53 46 +53 52.5 1.079 296.1 -14.4 K1 V 7.78 +0.78 +0.33 044.9 10.8 039. 06. r 5.74 d -116 -59 +23 132142 BD+54 1716 G200-062 384 NN 3878 A 14 54 11 +18 06.6 0.993 299.5 +8. M5 15.50 060. 17. s 14.4 e -62 -16 +46 3001 LP 441-33 Mv: G&L ApJ 305, 784 NN 3879 B 14 54 12 +18 06.8 0.993 299.5 +9. M7 : 18.60 060. 17. s 17.5 e -61 -16 +47 3002 LP 441-34 sep 9" 48d Mv: G&L ApJ 305, 784 Gl 570 A 14 54 32 -21 11.5 2.025 149.1 +29.1 K5 Ve 5.75 +1.10 +1.06 +0.40 174.2 06.0 174.2 06.0 6.96 a +50 -22 -31 131977 BD-20 4125 387 V726 Gl 570 B 14 54 31 -21 11.3 1.933 149.7 +27.9 SB M2 V 8.00 +1.50 +1.22 +0.89 174.2 06.0 174.2 06.0 9.21 a +47 -22 -29 131976 BD-20 4123 386 Wo 9503 14 54 34 -04 08.6 0.181 212.5 +21.7 F0 V 4.49 +0.32 +0.05 043.2 06.9 043.2 06.9 2.67 d +16 -22 +12 132052 BD-03 3696 Gl 570.1 14 54 42 -48 39.5 0.336 181.5 +37.3 G5 V 6.35 +0.71 +0.27 +0.26 049.2 11.9 062. 10. r 5.31 d +25 -34 -16 131923 CD-48 9494 NN 3880 q 14 54 43 +49 49.9 0.252 154.5 -16.0 F8 V 5.63 +0.50 +0.00 025.9 07.6 041. 04. s 3.69 c +28 -14 -12 132254 BD+50 2126 LTT 14437 BS 5581 NN 3881 A 14 54 59 +00 02.0 0.067 115.9 +20.6 K1 III 5.53 +1.13 +1.11 039.7 09.2 039.7 09.2 3.5 e +19 +1 +11 132132 BD+00 3277 BS 5573 comp B: sep 86.3" d(m) = 2.9 NN 3882 s 14 55 01 +15 10.8 0.598 289.6 m 14.73 +1.68 +1.20 040.9 05.0 040.9 05.0 12.79 c G136-039 3005 USNO 741 Gl 570.2 s 14 55 30 +31 36.7 1.374 211.1 +7.7 dM2 W 11.11 +1.33 +1.08 +0.63 066.1 17.0 031. 06. r 8.57 d +75 -188 +58 G166-057 388 V731 AC+31:32985 Gl 571 14 56 14 -43 53.5 0.370 223. -2.3 K7 V 10.15 +1.31 +1.09 +0.56 056.4 11.9 056.4 11.9 8.91 d -17 -24 -10 CP-43 6820 U364 GJ 1187 14 56 29 +56 51.8 0.683 156.7 +10. m 15.53 +1.95 +1.62 089.4 04.6 089.4 04.6 15.29 b +35 +1 +14 G201-027 3006 NN 3883 14 57 02 +59 46.9 0.090 309. dK5 s 10.16 +1.38 +1.27 +0.61 045. 07. r 8.43 d BD+60 1577 V734 uncertain comp. sep 30" (Worley) Gl 571.1 14 58 01 -10 55.9 0.470 178.9 +14.0 dM0.5 W 9.48 +1.40 +1.28 +0.63 051.6 07.5 051.6 07.5 8.04 d +26 -33 -17 132683 BD-10 4011 G151-018 V055 LTT 5983 NN 3884 14 58 45 +07 21.7 0.502 259.6 M3.5 K 12.73 +1.49 +1.17 062. 16. r 11.7 e G015-001 3012 LTT 14453 L 1126-79 LP 561-36 NN 3885 14 58 51 +05 45.0 0.410 165.1 M3 K 12.10 +1.45 +0.89 +1.10 063. 16. r 11.1 e G015-002 6 LTT 14454 L 1126-121 LP 561-68 comp B: SpT. K: optical Gl 572 14 59 09 +45 37.1 0.394 36.0 -10.0 dM0 W 9.13 +1.43 +1.18 +0.72 074.3 09.8 074.3 09.8 8.48 c -9 +16 -20 BD+45 2247 G179-006 V314 NN 3886 14 59 11 +35 39.3 0.322 147. M2 K 12.05 +0.93 043. 06. r 10.22 d G179-007 LTT 14457 Ross 1042 Gl 574 s 14 59 42 -46 05.9 0.29 271. -65.2 K5 V 9.86 +1.20 +1.07 +0.62C 056.8 11.9 056.8 11.9 8.63 d -66 +20 +0 CP-45 7173 GJ 1188 s 15 00 57 +03 58.1 1.136 308.3 -128. m 12.10 +1.46 +1.12 +0.76 047.0 10.2 027. 04. r 9.26 d -235 -15 +27 G015-004 389 Ross 1044 NN 3887 15 02 05 -18 23.7 0.191 226.8 K4 V 9.59 +1.20 +1.18 +0.52 041. 06. r 7.65 d 133412 BD-18 3965 U369 LTT 6010 Gl 575 A 15 02 08 +47 50.9 0.396 273.8 -29.7 F9 V n 5.19 +0.65 J+0.11 J 085.1 05.1 085.1 05.1 4.84 b -16 -30 -15 133640 BD+48 2259 44 I Boo ADS 9494 V(AB) = 4.76 d(m) = 0.77 Gl 575 B 15 02 08 +47 50.9 0.396 273.8 +3.4 SB dG2 W 5.96 085.1 05.1 085.1 05.1 5.61 b -13 -12 +13 a = 3.772" P = 225 yr NN 3888 15 02 08 -20 55.2 0.696 250.5 m 14.7 * +1.33 049. 08. r 13.2 * d 3022 LP 801-53 Gl 575.1 s 15 02 15 +29 40.4 0.295 125. k-m 12.75 +1.53 +1.23 +0.98 045.3 08.5 045.3 08.5 11.03 d G167-015 Gl 576 15 02 27 +05 50.3 0.746 229.7 -68. VAR K5 K 9.82 +1.31 +1.12 +0.58 056.4 10.3 056.4 10.3 8.58 d -47 -66 -46 BD+06 2986 G015-005 3020 V158 NN 3889 15 03 10 -07 03.1 0.200 266. DA7 15.90 +0.39 -0.43 039.1 05.5 039.1 05.5 13.86 d W190 GD 175 NN 3890 15 03 14 +60 34.6 0.685 285.8 M2 K 11.00 +1.50 +0.89 065. 14. r 10.06 d G224-044 3018 LTT 14486 Ross 1051 Wo 9510 x 15 03 58 +65 00.3 0.264 265.0 -72.6 G8 K 9.47 +0.82 +0.44 039.4 13.6 039.4 13.6 7.4 e -4 -70 -36 BD+65 1033 G224-046 LTT 14491 NN 3891 15 04 28 +55 16.1 0.481 288.1 m 13.35 +1.20 054. 10. r 12.01 d G201-033 5287 LP 135-97 Gl 577 s 15 04 57 +64 14.2 0.166 309.1 -6.4 dG5 e W 8.42 +0.68 +0.11 052.5 15.3 022. 04. r 5.13 d -33 -15 -1 134319 BD+64 1046 Gl 578 15 05 06 +25 03.8 0.249 132.6 -9.8 F5 V 4.93 +0.43 -0.02 +0.17 061.3 09.3 050. 05. s 3.42 c +17 -2 -19 134083 BD+25 2873 Gl 579 15 05 16 +25 07.2 1.003 299.5 -69.6 K7 V 10.09 +1.41 +1.22: +0.64 062.2 04.9 062.2 04.9 9.06 b -93 -40 -23 BD+25 2874 G167-019 391 V057 GJ 1189 s 15 06 54 +24 12.2 0.499 288.5 -51.3 dK8 M 9.31 +1.06 +0.98 +0.40 058.4 20.4 034. 04. r 6.97 c -74 -44 -8 BD+24 2824 G167-022 3026 V885 LTT 14505 LFT 1175 NN 3892 15 07 07 +03 21.0 0.735 311.1 M3 K 11.46 +1.50 +1.13: +1.05 078. 19. r 10.9 e G015-009 3030 LTT 14507 Ross 1047 Gl 579.2A s 15 07 28 -16 08.5 3.674 196.1 +294.3 K0 VI 9.08 +0.77 +0.17 +0.30 039.9 03.0 039.9 03.0 7.08 b +281 -443 -41 134439 BD-15 4042 53 Gl 579.2B s 15 07 28 -16 13.5 3.677 196.0 +308.0 K2 VI 9.45 +0.86 +0.37 +0.34 039.9 03.0 039.9 03.0 7.45 b +292 -446 -34 134440 BD-15 4041 52 NN 3893 15 07 48 +19 33.2 0.462 179.6 m 13.35 +1.26 069. 12. r 12.54 d G136-072 6 LTT 14512 L 1271-10 LP 442-10 LHS. Wo 9512 A s 15 08 41 -51 54.6 0.132 235.7 -10.0 G8 III 3.41 +0.92 +0.66 041.6 10.2 026. 03. s 0.48 c -22 -14 -2 134505 CD-51 8830 Wo 9512 B s 15 08 33 -51 55.1 0.123 232.6 -10.5 F9 V 6.69 +0.50 -0.02 041.6 10.2 026. 03. s 3.76 c -21 -12 -4 134483 CD-51 8827 NN 3894 15 09 12 -10 02.9 1.005 257.6 M4 14.26 +1.66 +1.02 +1.33 068.0 03.1 068.0 03.1 13.42 b G151-034 392 NN 3895 s 15 09 40 +18 09.0 0.678 215.5 -58. m 13.45 +1.51 +1.08 +1.12 042.3 03.1 042.3 03.1 11.58 b -11 -87 -39 G136-076 3033 LTT 14519 L 1271-41 LP 442-17 Gl 579.3 s 15 10 14 -00 58.5 0.375 219.4 -60.1 K0 L 9.29 +0.78 +0.38 +0.42C 046.7 10.2 020. 03. r 5.80 d -40 -88 -47 134985 BD-00 2941 G015-014 NN 3896 A p 15 10 29 +19 28.1 0.656 296.0 -37.8 G5 V 6.68 +0.68 +0.25 +0.33 022.6 07.1 050. 09. r 5.17 d -67 -28 +2 135101 BD+19 2939 G136-077 3036 LTT 14523 LFT 1183 ADS 9535 NN 3897 B p 15 10 30 +19 28.5 0.666 294.9 -38.2 G7 V 7.53 +0.73 +0.33 +0.35 022.6 07.1 050. 09. r 6.02 d -68 -29 +3 G136-078 3037 LTT 14524 LFT 1184 sep 24" 10d Gl 579.4 p 15 10 33 -25 07.3 0.402 259.4 +5.5 G5 V 6.45 +0.70 +0.33: +0.22 031.2 07.5 054. 09. r 5.11 d -13 -29 +16 134987 CD-24 11928 NN 3898 15 10 57 +45 54.6 0.539 311.0 m 13.35 +1.27 072. 13. r 12.64 d G179-020 3035 Gl 580 A 15 11 20 -01 09.5 1.373 249.0 -69.2 K0 V J 7.35 +0.77 J+0.35 J+0.27 J 058.9 02.6 058.9 02.6 6.20 a -85 -98 -15 135204 BD-00 2944 393 ADS 9544 V(AB) = 6.60 d(m) = 0.0 Gl 580 B 15 11 20 -01 09.5 1.373 249.0 7.35* 058.9 02.6 058.9 02.6 6.20* b sep 0.1" rapidly moving GJ 1190 s 15 11 25 -03 36.9 0.767 282.7 -110.3 K5 V 9.84 +1.13 +1.01 +0.47 047.5 08.7 033. 05. r 7.43 d -148 -49 -8 BD-03 3746 G015-015 3039 V736 U370 Wolf 561 Gl 580.1 15 13 35 -58 37.0 0.169 214.6 +9.6 A3 V 4.07 +0.09 +0.09 +0.05C 051.6 11.9 051.6 11.9 2.6 e -2 -17 -6 135379 CP-58 5875 BET Cir Gl 580.2 15 14 03 +67 32.2 0.448 151.8 -48.1 F8 V 5.13 +0.53 +0.08 048.3 07.4 048.3 07.4 3.55 d +52 -30 -26 136064 BD+67 876 NN 3899 15 14 42 +03 21.4 DA wk 14.02 051. 06. w 12.56 c W440 WD1514+033 Wo 9518 s 15 15 47 -18 26.4 0.567 131.8 K5 p K 10.35 +1.22 +1.03 +0.52 044.5 08.5 044.5 08.5 8.59 d BD-18 4031 3053 LTT 6099 LFT 1190 NN 3900 15 16 29 -12 34.1 0.724 253.5 M3 K 12.58 +1.52 +1.24 075. 23. r 12.0 e G151-045 3056 LTT 6104 L 839-21 LP 742-61 Gl 581 15 16 50 -07 32.4 1.224 256.3 -9.4 dM5 W 10.56 +1.60 +1.23 +1.10 157.9 06.5 157.9 06.5 11.55 a -22 -30 +8 BD-07 4003 G151-046 394 V159 Gl 582 15 18 25 -48 08.1 1.648 260.4 -69.4 G2 V 5.65 +0.65 +0.06 +0.22 063.1 07.8 063.1 07.8 4.65 c -125 -55 +40 136352 CD-47 9919 395 NU(2) Lup NN 3901 q 15 18 39 -47 44.8 0.197 225.5 -11.2 F8 V 5.00 +0.50 +0.04 029.9 04.6 029.9 04.6 2.38 d -25 -20 -8 136351 CD-47 9922 LTT 6126 NN 3902 15 18 53 +68 01.8 0.611 310.2 m 13.44 +1.16 045. 09. r 11.71 d G239-048 3057 LP 68-73 Gl 582.1A s 15 19 08 -47 44.4 0.453 235.3 -22.1 VAR G5 V J 8.29 +0.70 J+0.10 J+0.46CJ 056.1 15.6 056.1 15.6 7.0 e -39 -21 -4 136466 CD-47 9926 V(AB) = 7.68 d(m) = 0.3 Gl 582.1B s 15 19 08 -47 44.4 0.453 235.3 8.6 * 056.1 15.6 056.1 15.6 7.3 * e sep 1.4" 217d - 0.7" 77d (1895-1960) GJ 2112 AB 15 19 11 -27 39.5 0.745 35.4 M3 : K 13.28 +1.70 +1.21 060. 15. r 12.2 e 3064 LTT 6133 LP 915-27 L 623-94 Gl 583 15 19 27 -04 35.9 0.298 271.5 -17.8 K7 V U 9.47 +1.33 +1.23 +0.56 060.2 18.8 054. 10. r 8.13 d -27 -16 +3 BD-04 3873 G015-019 V058 Wo 9520 15 19 38 +21 09.3 0.145 34.7 dM0 e M 10.11 +1.51 +0.94 091.6 05.2 091.6 05.2 9.92 b BD+21 2763 V740 BPM 90688 GJ 1191 15 19 54 -10 28.8 0.209 195.1 -5.3 K2 V 7.99 +0.95 +0.79 +0.35 050. 07. r 6.48 d +0 -17 -12 136713 BD-10 4088 U372 LTT 6139 GJ 1192 15 20 11 +01 36.1 0.519 224.6 -26.1 K3 V 8.30 +1.00 +0.86 +0.32 043.5 08.1 042. 06. r 6.42 d -18 -60 -15 136834 BD+01 3071 G015-020 3067 U373 Gl 584 A 15 21 08 +30 28.0 0.238 144.1 -7.3 SB G2 V 5.62 +0.58 J+0.04 J+0.18tJ 059.6 05.1 059.6 05.1 4.50 b +15 -5 -13 137107 BD+30 2653 ETA Crb ADS 9617 V(AB) = 5.02 d(m) = 0.34 Gl 584 B 15 21 08 +30 28.0 0.238 144.1 -10.6 SB G2 V 5.96* 059.6 05.1 059.6 05.1 4.84* b +14 -6 -16 137108 a = 0.907" P = 41.623 yr Gl 585 15 21 35 +17 39.6 1.302 196.8 +84. M4 K 13.68 +1.78 +1.18 +1.36 085.1 02.9 085.1 02.9 13.33 a +81 -41 +63 G136-103 396 Ross 508 NN 3903 A 15 22 36 +37 33.1 0.171 299.4 -8.6 SB F0 V 4.31 +0.31 +0.07 039.5 07.4 042. 07. r 2.43 d -19 -10 +2 137391 BD+37 2636 BS 5733 ADS 9626 NN 3904 B 15 22 36 +37 33.4 0.17 299. -8.6 G1 V 6.50 +0.59 +0.13 039.5 07.4 042. 07. r 4.62 d -18 -10 +2 137392 BD+37 2637 BS 5734 sep 108.9" d(m) = 2.2 NN 3905 p 15 23 02 -26 31.9 0.811 269.6 -48. K3/4 V 8.84 +1.05 +0.92 +0.40 012.7 24.1 042. 05. r 6.96 c -87 -47 +30 137303 CD-26 10870 3071 U377 LTT 6168 Gl 585.1 15 25 12 +02 46.3 0.05 259. dM0 M 10.21 +1.34 +1.23 +0.57 040. 06. r 8.22 d BD+03 3032 V742 NN 3906 15 25 15 +10 46.3 0.454 238. K5 s 9.86 +1.30 +0.55 044. 06. r 8.08 c BD+11 2811 G137-007 LTT 14593 Gl 586 A 15 25 27 -09 10.2 0.365 168.5 +8.2 SB K2 V U 6.92 +0.81 +0.49 +0.29 061.8 05.1 061.8 05.1 5.87 b +19 -17 -14 137763 BD-08 3981 G151-062 U379 LTT 6180 Gl 586 B 15 25 30 -09 10.8 0.379 165.5 +8.0 K2 V U 7.58 +0.92 +0.65 +0.30 061.8 05.1 061.8 05.1 6.53 b +20 -17 -15 137778 BD-08 3983 G151-063 U380 LTT 6181 Gl 586 C 15 25 03 -08 51.0 0.318 172. k-m 15.41 +1.84 +1.42 048.0 05.0 048.0 05.0 13.82 c G151-061 Gl 587 15 25 44 -49 46.8 0.238 246.8 -42.7 G5 V 7.69 +0.77 +0.25 +0.32 056.0 13.6 040. 07. r 5.70 d -51 +0 +1 137676 CP-49 8137 Gl 587.1 15 25 53 +25 57.8 0.12 121. dM0 M 11.12 +1.46 +0.76 042. 07. r 9.24 d V744 AC+26:37030 NN 3907 15 27 58 +43 03.5 0.698 146.4 m 14.17 +1.73 +1.33 051.1 04.4 051.1 04.4 12.71 b G179-033 3075 double?? phot. cat. NN 3908 15 28 39 -26 44.8 0.575 219.8 M3.5 K 13.7 * +1.18 043. 08. r 11.9 * d 3079 LTT 6205 L 624-20 LP 860-50 Gl 588 15 28 58 -41 05.6 1.539 228.5 +15.4 M3 K 9.31 +1.52 +1.11 +1.05 165.1 05.4 165.1 05.4 10.40 a -6 -46 -1 CD-40 9712 397 CP -40:7021 LTT 6210 comp. B is optical NN 3909 15 29 19 +14 25.7 0.033 200.6 G5 7.70 088. 10. o 7.42 c 138441 BD+14 2889 NN 3910 15 29 52 +29 01.2 0.579 274.7 m 14.30 +1.34 062. 10. r 13.26 d G167-047 3080 NN 3911 15 32 02 +46 24.9 0.199 5. m 13.58 +1.21 051. 10. r 12.12 d LP 176-55 Gl 588.1 15 32 03 +38 04.9 0.08 166. dM0 M 11.28 +1.50 +1.20 +0.77 040. 06. r 9.29 d V746 AC+38:34548 GJ 1193 15 32 13 +14 26.3 0.697 257.7 M3.5 K 13.83 +1.57 +1.08 +1.21 048.4 03.9 048.4 03.9 12.25 b G137-022 3083 Ross 512 NN 3912 15 32 43 -14 37.5 0.062 86.2 -28.2 G8.5 III 3.90 +1.00 +0.74 039.5 15.3 039.5 15.3 1.9 f -20 +9 -19 138905 BD-14 4237 Gl 589 A 15 33 08 +17 52.9 1.219 263.0 -43.2 M4.5: K 12.41 +1.58 +1.18 +1.04 070.2 02.5 070.2 02.5 11.64 a -55 -74 +12 G137-026 399 AC+18:1890-112 Gl 589 B 15 33 08 +17 52.9 1.219 263.0 M6 K 14.99 +1.81 +1.79: +1.40 070.2 02.5 070.2 02.5 14.22 a G137-025 400 L 1272-021 Gl 590 s 15 33 21 -37 43.4 0.892 201.7 M4 K 12.8 : +1.6 : +0.83 081.6 11.9 081.6 11.9 12.4 : d 3092 L 480-069 NN 3913 15 33 37 +22 19.1 0.743 260.7 k-m 12.69 +1.51 +1.16 053.2 04.0 053.2 04.0 11.32 b G167-051 3091 LTT 14636 L 1344-37 LP 384-18 Gl 591 15 34 10 +39 59.7 0.458 276.9 -65.6 K3 V 7.60 +0.96 +0.76 +0.29 047.0 04.2 047.0 04.2 5.96 b -43 -62 -26 139323 BD+40 2903 G179-037 ADS 9716C Gl 592 15 34 13 -13 57.5 0.774 216.2 M4 K 12.70 +1.58 +1.07 +1.23 076.4 04.1 076.4 04.1 12.12 b G152-040 3093 Ross 802 Gl 593 A 15 34 15 +39 58.0 0.465 277.3 -67.7 K2 V 7.43 +0.91 J+0.69 J+0.28 J 047.0 04.2 047.0 04.2 5.79 b -44 -64 -28 139341 BD+40 2905 G179-038 ADS 9716A V(AB) = 6.77 d(m) = 0.21 Gl 593 B 15 34 15 +39 58.0 0.465 277.3 7.6 * 047.0 04.2 047.0 04.2 6.0 * c ADS 9716B a = 0.785" P = 55.88 yr Gl 594 15 37 45 -44 29.8 0.317 212.7 -5.4 F5 IV-V 4.64 +0.40 -0.03 +0.24C 058.3 07.2 058.3 07.2 3.47 c -15 -19 -10 139664 CD-44 10310 GJ 1194 A 15 38 16 +43 39.5 1.225 106.3 -108. m 12.48 +1.57 J +1.11 J 073.3 04.8 073.3 04.8 11.81 b +31 -22 -128 G179-043 402 V(AB) = 12.20 d(m) = 1.35: GJ 1194 B 15 38 17 +43 39.4 1.225 106.3 m 13.8 * 073.3 04.8 073.3 04.8 13.1 * b 403 sep 5" 146d (LHS) Gl 595 15 39 20 -19 18.6 2.254 243.2 +83. M3.5 K 11.87 +1.60 +1.05 +1.14 111.0 11.8 111.0 11.8 12.10 c +43 -102 +62 54 L 768-119 NN 3914 15 40 15 -30 46.1 0.504 226.5 m 13.1 * +1.08 040. 08. r 11.1 * d 3109 LTT 6278 L 552-4 LP 916-51 GJ 1195 15 40 22 -10 46.3 1.166 254.9 -171.4 F3 VI 7.22 +0.49 -0.21 +0.22 039.4 07.9 039.4 07.9 5.20 d -190 -108 -34 140283 BD-10 4149 405 CVS 101522 Gl 596 A s 15 40 55 +26 26.2 0.166 128.6 K7 s 10.70 +1.29 +1.30 056.1 22.2 030. 07. r 8.1 e BD+26 2723P Steph 21187 Gl 596 B s 15 40 57 +26 25.5 0.186 125. m 13.5 P 056.1 22.2 030. 07. r 10.9 P e LP 384-43 sep 45" 148d (NLTT) Gl 596.1A 15 41 31 +02 40.4 0.163 200.4 +19.4 SB G5 V 5.86 +0.68 +0.24 +0.24 050.6 08.1 050.6 08.1 4.38 d +19 -12 +10 140538 BD+02 2989 PSI Ser ADS 9763 Gl 596.1B 15 41 31 +02 40.4 0.163 200.4 12.0 * 050.6 08.1 050.6 08.1 10.5 * d sep 4" Gl 596.2 15 41 48 +06 34.9 0.142 72.0 +2.7 K2 III e 2.64 +1.17 +1.24 +0.38 049.7 08.6 049.7 08.6 1.12 d +5 +12 -4 140573 BD+06 3088 ALF Ser Gl 597 15 42 15 +76 09.6 1.141 133.8 -46.1 M3 K 12.22 +1.65 +1.18 +1.10: 075.2 03.2 075.2 03.2 11.60 a +78 -4 -34 G257-020 404 AC+76:5308 Gl 598 15 44 01 +07 30.5 0.241 250.9 -68.5 SB G0 V 4.43 +0.60 +0.11 +0.20 083.9 04.6 083.9 04.6 4.05 b -50 -25 -41 141004 BD+07 3023 LAM Ser NN 3915 p 15 44 01 -58 01.6 0.594 245.1 M2-3 11.65 +0.88 030.5 11.3 045. 08. r 9.92 d 3119 LTT 6300 L 201-97 Gl 599 A 15 44 14 -37 45.6 0.468 241.9 -5.2 G6 V 6.01 +0.72 +0.31 +0.25 073.5 09.4 073.5 09.4 5.34 c -17 -25 +4 140901 CD-37 10500 5299a Gl 599 B 15 44 14 -37 45.6 0.468 241.9 +1. DA7 12.78 +0.33 -0.42 073.5 09.4 073.5 09.4 12.11 c -52 -10 -4 5299b W114 NN 3916 15 44 42 -10 44.3 0.505 228.8 M2 s 11.25 +1.02 079. 16. r 10.74 d G152-050 3117 LTT 6305 L 841-9 LP 743-31 NN 3917 q 15 45 38 +01 43.6 0.240 227.5 -28.4 G8 V O 7.43 +0.81 +0.44 033.6 13.6 046. 07. r 5.74 d -21 -28 -15 141272 BD+ 2 3001 LTT 14685 Gl 599.1 s 15 47 22 -50 32.2 0.26 102. +47.9 k 10.72 +1.19 +1.13 +0.61C 050.0 10.2 023. 03. r 7.53 c +60 +4 -39 CP-50 8682 NN 3918 15 47 38 +01 06.6 0.180 96. m 12.45 +1.09 056. 11. r 11.19 d LTT 14694 Wolf 587 NN 3919 15 47 46 +34 57.5 0.937 317.4 m 13.16 +1.64 056.6 03.9 056.6 03.9 11.92 b G179-057 3122 LTT 14695 L 1489-5 LP 274-8 NN 3920 15 48 14 +51 11.7 0.472 306.0 M3: s 12.05 +1.53 +0.97 048. 09. r 10.46 d G202-016 6 NN 3921 q 15 48 19 +04 37.6 0.140 64.6 -9.1 A2 m 3.71 +0.15 +0.11 +0.06 038.4 06.9 038.4 06.9 1.63 d -4 +14 -13 141795 BD+04 3069 NN 3922 p 15 48 57 +74 34.2 0.318 162.6 -27.0 K5 K 9.31 +1.18 +0.48 034.2 11.9 046. 07. r 7.62 d +38 -17 -8 142474 BD+74 634 G257-023 LTT 14698 NN 3923 15 49 21 +29 40.4 0.501 206.4 M7 s 13.01 +1.58 +1.18 058. 11. r 11.83 d G168-014 3124 Gl 600 15 49 46 +11 01.6 0.358 228.4 -0.7 dM0 M 9.36 +1.42 +1.27 +0.65 047.4 04.7 047.4 04.7 7.74 c +3 -35 +8 BD+11 2874 G137-059 V318 Gl 601 A 15 50 43 -63 16.7 0.440 205.0 +0.4 F2 IV 2.84 +0.29 +0.04 +0.07 082.1 11.9 082.1 11.9 2.41 d -15 -17 -11 141891 CP-63 3723 BET Tra cpm with LTT 6333 = L 153-157 ? NN 3924 15 50 52 +13 21.1 0.584 195.3 +35.1 SB G1 V 6.10 +0.60 +0.00 +0.22 041.7 19.4 053. 07. r 4.72 c +50 -34 +18 142267 BD+13 3024 3131 LTT 14713 Gl 602 15 50 57 +42 35.4 0.765 35.0 -56.4 F9 V 4.61 +0.57 +0.00 +0.21 057.5 05.7 057.5 05.7 3.41 c -44 +15 -71 142373 BD+42 2648 3127 CHI Her NN 3925 A 15 51 11 +34 54.5 0.569 151.7 M3 K 11.75 +1.51 +1.21 +1.07 053.4 03.4 048.7 06.3 10.19 c G180-008 3129 LTT 14715 LFT 1231 Ross 806 NN 3926 B 15 51 11 +34 54.0 0.569 151.7 m 13.18 +1.53 +1.20 040.4 04.5 048.7 06.3 11.62 c G180-009 3130 LTT 14716 LFT 1232 L 1489-3 LP 274-21 sep 26" 174d GJ 1196 15 51 38 -25 51.6 0.250 295.4 K5 V 9.28 +1.24 +1.23 +0.49 047. 08. r 7.64 d 142288 CD-25 11183 U386 LTT 6348 NN 3927 s 15 53 08 +34 00.0 0.643 139.0 m 15.95 +1.76 042.1 05.9 042.1 05.9 14.07 d 3132 LP 274-24 USNO 746 NN 3928 15 53 39 +35 20.6 0.261 307. m 13.68 +1.37 092. 14. r 13.50 d G180-011 Wo 9531 15 53 58 +38 05.4 0.084 18.9 -11.6 F0 IV 5.45 +0.33 +0.03 043.2 08.5 043.2 08.5 3.63 d -10 +0 -11 142908 BD+38 2712 Gl 603 15 54 08 +15 49.4 1.322 166.6 +6.6 F6 V 3.85 +0.48 -0.03 +0.14 084.1 09.6 084.1 09.6 3.47 c +60 -36 -26 142860 BD+16 2849 408 GAM Ser Gl 604 15 54 16 -42 28.7 0.323 233.3 +35.6 K5 V 8.05 +1.12 +1.03 +0.43 058.9 07.8 058.9 07.8 6.90 c +21 -38 +7 142709 CD-42 10934 Wo 9532 s 15 55 44 +63 57.4 0.220 326.9 -0.6 G5 9.54 +0.89 +0.59 044.2 08.5 021. 03. r 6.15 d -49 -9 +3 143433 BD+64 1102 G225-035 LTT 14744 NN 3929 15 56 27 +35 32.7 0.353 333. M6 : s 12.69 +1.59 +1.15 061. 12. r 11.62 d G180-018 Wo 9533 s 15 56 32 +27 52.7 0.828 291.5 -69.8 K0 V 8.01 +0.77 +0.30 +0.27 044.4 07.8 044.4 07.8 6.25 d -90 -67 +5 143291 BD+28 2503 G168-020 3138 LFT 1237 NN 3930 15 56 38 +25 42.8 0.136 215.2 -4.5 SB K2 V 8.33 +1.00 +0.72 044. 07. r 6.55 d +4 -15 +0 143313 BD+25 3003 Gl 604.1 15 56 52 -45 18.6 0.203 228.8 -23.6 G5 IV 7.54 +0.74 +0.38 +0.35C 044.2 15.3 044.2 15.3 5.8 f -31 -9 -3 143120 CD-45 10373 Wo 9535 s 15 57 11 +65 32.4 0.238 136.2 -8.0 SB dG5 9.04 +0.86 +0.56 042.3 13.6 026. 03. r 6.11 c +41 +8 -14 143665 BD+65 1092 G225-037 LTT 14752 Gl 606 15 57 11 -08 06.8 0.194 104.7 dM0 M 10.50 +1.51 +1.16 +0.89 098.1 08.0 098.1 08.0 10.46 b BD-07 4156 V753 NN 3931 q 15 57 31 -16 23.3 0.747 238.0 -25.0 F8 V 5.47 +0.52 +0.03 +0.16 033.2 06.0 033.2 06.0 3.08 d -44 -100 +13 143333 BD-16 4196 3143 LTT 6378 NN 3932 s 15 57 34 +15 08.9 0.846 209.5 m 13.99 +1.58 +1.13 +1.15 040.0 05.9 040.0 05.9 12.00 d G137-074 3142 Gl 606.1A s 15 58 21 -84 05.8 0.32 269. -10.5 K0 V 7.68 +0.78 +0.43 +0.41CJ 049.0 17.0 039. 06. r 5.64 d -21 -18 +29 142022 CP-83 593 V(AB) = 7.66 d(m) = 3.35 Gl 606.1B s 15 58 21 -84 05.8 0.32 269. k-m 11.03 +1.36 +1.19 049.0 17.0 039. 06. r 8.99 d L 20-30 sep 22" 29d (NLTT) NN 3933 15 59 08 +40 28.3 0.394 227. m 13.12 +1.13 047. 09. r 11.48 d G180-021 Gl 606.2 15 59 08 +33 27.2 0.798 194.8 +18.4 G0 V 5.41 +0.60 +0.08 040.2 12.4 060. 06. s 4.30 c +52 -34 +21 143761 BD+33 2663 3145 RHO Crb NN 3934 15 59 24 -24 57.2 0.650 200.8 m 13.2 * +1.15 049. 10. r 11.7 * d 3147 LP 861-12 Gl 607 15 59 45 +30 19.0 0.351 293. +10.1 M3 K 12.51 +1.56 +1.20 061.2 05.1 061.2 05.1 11.44 b -14 -5 +25 G168-024 AC+30:35150 Gl 608 s 15 59 53 +61 48.0 0.462 274.6 -36.5 dM0 M 9.99 +1.29 +1.23 +0.52 042.5 05.9 042.5 05.9 8.13 d -21 -59 +7 BD+62 1446 G225-043 5307 V875 NN 3935 A 15 59 54 +30 35.8 0.189 316. m 13.37 +1.11 045. 05. r 11.64 c LP 329-20 NN 3936 B 15 59 46 +30 35.9 0.189 316. m 15.17 +1.39 045. 05. r 13.44 c LP 329-19 sep 112" 273d Gl 609 16 00 43 +20 44.6 1.571 217.6 +25. M3 K 12.56 +1.63 +1.20 +1.27 099.4 03.0 099.4 03.0 12.55 a +40 -58 +35 G137-078 411 L 1346-53 Gl 609.1 16 00 57 +58 41.9 0.467 316.0 -7.7 SB F8 IV-V 4.01 +0.52 +0.10 048.7 08.5 048.7 08.5 2.45 d -42 -17 +7 144284 BD+58 1608 THE Dra Wo 9540 A 16 01 37 -11 14.2 0.072 241.7 -32.2 F6 IV-V 4.84 +0.45 J+0.03 J 041.1 04.2 041.1 04.2 2.91 c -30 -8 -13 144070 BD-10 4237 BS 5978 ADS 9909 V(AB) = 4.16 d(m) = 0.16 Wo 9540 B 16 01 37 -11 14.2 0.072 241.7 F6 IV-V 5.0 * 041.1 04.2 041.1 04.2 3.1 * c 144069 BS 5977 a = 0.720" P = 45.69 yr Wo 9540 C 16 01 37 -11 14.1 0.070 254.3 -31.3 G8 V 7.30 +0.75 041.1 04.2 041.1 04.2 5.37 c -29 -7 -11 sep (AC) 7.6" 53d (1959) NN 3937 16 01 40 -06 07.9 0.854 184.0 dM4.5-5 15.51 +1.89 060.4 04.4 060.4 04.4 14.42 b 3149 LP 684-17 Wo 9541 A 16 01 41 -11 18.8 0.075 248.0 -31.5 G8 V 7.46 +0.74 +0.29 043.0 04.5 043.0 04.5 5.63 c -29 -7 -12 144087 BD-11 4057 U391 Wo 9541 B 16 01 41 -11 18.8 0.070 248.1 -28.1 K2 V U 8.03 +0.84 +0.51 043.0 04.5 043.0 04.5 6.20 c -26 -7 -11 144088 BD-11 4058 U392 Gl 609.2 16 01 59 +25 22.9 0.867 322.2 -48.2 SB G8 V 7.10 +0.77 +0.33 +0.28 054.6 08.0 054.6 08.0 5.79 d -88 -16 +5 144287 BD+25 3020 3148 Wo 9543 A s 16 02 29 -32 43.5 0.426 237.0 -26.4 G9 V 8.34 +0.82 J+0.38 J 041.0 07.2 041.0 07.2 6.40 d -40 -39 +2 144179 CD-32 11405 LTT 6409 V(AB) = 7.85 d(m) = 0.59 Wo 9543 B s 16 02 29 -32 43.5 0.426 237.0 K1 V 9.0 * 041.0 07.2 041.0 07.2 7.1 * d a = 0.820" P = 134.00 yr Wo 9543 C s 16 02 29 -32 43.5 0.426 237.0 K5 K 11.1 * 041.0 07.2 041.0 07.2 9.2 * d sep (AC) 9.6" 8d (1957) Gl 610 16 02 44 -20 18.6 0.465 140.0 +43.4 K3/4 V 7.40 +1.04 +0.94 +0.38 058.5 04.4 058.5 04.4 6.24 b +54 -11 -17 144253 BD-20 4399 5312 K3 Kui NN 3938 q 16 02 57 -45 02.4 0.027 4.5 -15.5 A m 4.72 +0.23 +0.15 +0.12 033.3 09.2 033.3 09.2 2.3 e -13 +9 +1 144197 CD-44 10625 BS 5980 may be composite (Mich) Gl 611 A 16 03 13 +39 17.4 0.579 275.0 -60.0 G8 V 6.66 +0.73 +0.21 080.1 07.6 080.1 07.6 6.18 c -34 -56 -22 144579 BD+39 2947 3152 Gl 611 B 16 03 07 +39 17.6 0.624 274.5 m 14.23 +1.72 +1.25: 072.5 03.4 072.5 03.4 13.53 b G180-027 3150 Gl 611.1 16 03 51 -70 55.9 0.440 208.3 +25.7 G8 V 7.22 +0.72 +0.31 +0.35C 047.9 08.0 047.9 08.0 5.62 d -12 -45 -19 144009 CP-70 2163 Gl 611.2 16 03 58 +80 45.8 0.044 334.6 -21.1 K0 H 7.57 +1.06 +0.96 046.1 10.2 046.1 10.2 5.89 d +3 -17 -12 145742 BD+81 541 giant (Tokovinin Sov. Astr. Lett 16, p 24, 1990) Gl 611.3 p 16 04 18 +08 31.2 0.503 279.4 -41.6 dM3 e W 11.55 +1.46 +0.85 036.6 05.4 036.6 05.4 9.37 d -59 -45 +20 G016-029 3156 LTT 14795 L 1130-30 Gl 612 s 16 04 42 +38 46.4 0.577 157.8 +24.1 K3 V 8.61 +0.96 +0.71 056.6 13.2 038. 06. r 6.51 d +76 +0 +0 144872 BD+39 2950 G180-031 3153 Gl 612.1 s 16 04 48 +34 45.9 0.622 153.6 +8.2 dM0 W 10.45 +1.24 +1.25 +0.50 049.8 09.8 049.8 09.8 8.94 d +58 -6 -14 BD+35 2774 G180-033 3155 V059 NN 3939 16 05 02 +06 06.1 0.377 233. m 13.46 +1.15 043. 09. r 11.63 d G016-030 LTT 14801 L 1130-80 LP 564-39 GJ 1197 s 16 05 09 +26 58.6 0.564 140.3 m 13.33 +1.64 +1.25 +1.02 045.6 03.7 045.6 03.7 11.62 b G168-032 3158 NN 3940 s 16 05 10 +47 38.1 0.123 003. -17.3 dK8 M 9.90 +1.17 +1.08 +0.43 042.9 04.1 042.9 04.1 8.06 c -15 -6 -15 BD+47 2298 V758 GJ 1198 16 05 31 -10 17.3 1.354 195.1 M2 14.70: +1.70: +0.99: +1.30 046.9 02.7 046.9 02.7 13.06: b G153-027 412 Gl 613 16 05 41 -56 19.1 0.351 338.7 +37.9 K3 V 7.11 +0.85 +0.48 +0.38 075.3 11.9 075.3 11.9 6.49 d +37 -14 +18 144628 CP-56 7345 NN 3941 16 07 11 +77 02.9 0.309 281. M1.5 K 12.35 +1.05 042. 10. r 10.5 e G256-030 LTT 18432 AC+77:5457 NN 3942 16 07 47 +53 04.4 0.230 71. dM0 M 10.19 +1.45 +0.76 064. 10. r 9.22 d V759 NN 3943 16 07 56 -70 01.2 0.643 203.3 k-m 13.75 +1.31 070. 11. r 12.98 d 3167 LTT 6453 L 74-208 Wo 9547 s 16 07 57 -52 47.0 0.44 216. g 10.50 +1.16 +1.12 039.4 05.9 039.4 05.9 8.48 d CP-52 9317 CD-52:7263 LTT 6452 Gl 614 16 08 47 +43 57.0 0.323 155.9 -13.3 K0 V 6.66 +0.88 +0.66 061.9 10.2 061.9 10.2 5.62 d +21 -11 -15 145675 BD+44 2549 G180-035 GJ 1199 16 09 06 +13 30.4 0.541 181.1 +131. DA6 15.09 +0.23 -0.64 054.9 04.7 054.9 04.7 13.79 b +88 -3 +43 G138-008 3163 W117 Gl 615 16 09 47 -57 25.5 1.647 212.0 +10.0 K0 V 7.53 +0.83 +0.28 +0.32 069.9 06.4 069.9 06.4 6.75 b -52 -95 -29 145417 CP-57 7690 413 NN 3944 16 10 44 -21 16.4 0.122 273.6 +16.7 G3 V 6.69 +0.61 +0.08 040. 06. r 4.70 d +10 -10 +16 145809 BD-21 4305 Gl 615.1A 16 10 58 +13 39.6 0.456 156.7 +18.1 G8 V 7.36 +0.76 J+0.39 J 051.8 05.2 051.8 05.2 5.93 c +43 -9 -11 145958 BD+13 3091 ADS 9969 V(AB) = 6.68 d(m) = 0.15 Gl 615.1B 16 10 58 +13 39.6 0.456 156.7 +20.8 G8 V 7.5 * 051.8 05.2 051.8 05.2 6.1 * c +45 -8 -10 NN 3945 16 11 17 -28 22.6 0.520 224.7 M3.5 K 12.96 +1.19 062. 12. r 11.92 d 3169 LTT 6474 L 626-41 LP 917-1 NN 3946 16 12 17 +04 59.6 0.427 280.8 m 13.53 +1.18 047. 09. r 11.89 d G017-007 6 LTT 14839 L 1130-104 LP 564-54 GJ 1200 16 12 27 +19 13.3 2.033 280.0 -82. m 12.92 +1.54 +1.10 +1.12 056.5 03.9 056.5 03.9 11.68 b -127 -123 +67 55 Gl 615.2A 16 12 48 +33 59.0 0.287 253.6 -12.2 SB F8 V 5.64 +0.51 -0.00 +0.21 044.4 05.4 044.4 05.4 3.88 c -7 -30 +11 146361 BD+34 2750 SIG Crb ADS 9979 Gl 615.2B 16 12 48 +33 59.0 0.287 253.6 -14.5 G1 V 6.72 +0.24 044.4 05.4 044.4 05.4 4.96 c -8 -32 +9 146362 Gl 615.2C 16 12 03 +33 53.9 0.305 254. M3.5 K 12.31 +1.40 +1.04 044.4 05.4 044.4 05.4 10.55 c G180-042 L 1490-024 Gl 616 16 12 54 -08 14.3 0.554 155.6 +12.0 G1 V 5.49 +0.65 +0.16 +0.22 065.1 06.5 065.1 06.5 4.56 c +29 -16 -25 146233 BD-07 4242 3171 NN 3947 16 13 26 +24 35.0 0.252 344. M2 L 11.99 +1.51 +0.91 042. 08. r 10.11 d G168-038 LTT 14849 L 1346-3 LP 385-58 NN 3948 16 14 05 +35 56.5 0.252 307. K5 s 9.62 +1.23 +1.36 041. 09. r 7.68 d G180-045 LTT 14853 L 1562-52 LP 275-83 H 32 Wo 9551 s 16 15 10 +71 03.4 0.286 181.6 -17.5 dG5 7.90 +0.63 +0.22 042.0 08.2 025. 03. r 4.89 c +53 -18 +11 147231 BD+71 775 G240-012 LTT 14856 NN 3949 16 15 40 -04 34.3 0.091 65.2 -7.7 VAR G9.5 IIIb 3.24 +0.96 +0.75 040.6 08.8 040.6 08.8 1.28 d -5 +9 -8 146791 BD-04 4086 Gl 616.2 16 15 59 +55 23.8 0.492 157.2 -32.6 dM1.5e W 9.96 +1.48 +1.08 +0.90 047.5 06.5 047.5 06.5 8.34 c +47 -23 -27 BD+55 1823 G202-036 5315 V161 CR DRA possible binary: Heintz AJ 101, 1071 Wo 9553 s 16 16 02 -28 10.2 0.260 169.1 -31.1 G0 V 7.67 +0.61 +0.12 042.6 09.0 023. 03. s 4.48 c -24 -27 -50 146775 CD-27 10902 LTT 6500 Wo 9554 16 16 05 -50 02.1 0.162 251.0 -28.9 G8 III 4.02 +1.08 +1.16 +0.41 043.0 11.9 043.0 11.9 2.2 e -33 -1 +8 146686 CD-49 10536 Gl 617 A 16 16 37 +67 21.5 0.510 280.3 -19.9 VAR M0 Ve 8.60 +1.41 +1.26 +0.68 088.3 03.8 088.3 03.8 8.33 a -11 -32 +5 147379 BD+67 935 G225-057 3175 V162 Gl 617 B 16 16 39 +67 22.6 0.522 278.6 -19.5 M2.5 K 10.72 +1.49 +1.13 +1.08 088.3 03.8 088.3 03.8 10.45 a -10 -32 +6 G225-058 3176 Gl 618 A 16 16 47 -37 25.4 1.222 324.5 +20. M3 K 10.60 +1.57 +1.21 +1.08 130.0 08.2 130.0 08.2 11.17 b +15 +3 +47 CD-37 10765 415 Gl 618 B 16 16 47 -37 25.4 1.222 324.5 M5 : K 14.15 +1.79 +1.59 130.0 08.2 130.0 08.2 14.72 b 416 Gl 618.1 p 16 17 48 -04 08.9 0.409 268. -118.1 dM2 M 10.70 +1.40 +1.28 +0.68 027.2 03.9 027.2 03.9 7.87 d -122 -64 -11 G017-011 V760 AC-04:2788-82 Wo 9557 A 16 18 12 +39 49.6 0.137 270.8 -29.0 F3 IV-V 5.46 +0.40 -0.08 040.9 10.2 040.9 10.2 3.5 e -14 -28 -9 147365 BD+40 3005 Wo 9557 B 16 18 12 +39 49.6 0.137 270.8 11. * 040.9 10.2 040.9 10.2 9. * e NN 3950 A 16 18 56 +75 52.3 0.267 341.0 -9.5 VAR F3 V 4.95 +0.37 +0.08 040.7 07.5 040.7 07.5 3.00 d -27 -14 -10 148048 BD+76 596 LTT 14869 ETA UMi NN 3951 B 16 19 50 +75 50.1 0.264 341. m 14.51 040.7 07.5 040.7 07.5 12.56 d sep 227" 125d (NLTT) Gl 618.4 16 19 01 -48 31.9 0.763 231.6 M3 K 11.83 +1.48 +0.89 043.1 08.4 043.1 08.4 10.00 d 3185 L 338-152 Gl 619 16 19 12 +41 04.6 0.122 347.7 +7.5 dM0 p M 8.98 +1.30 +1.17 +0.56 073.6 16.4 068. 09. r 8.14 c -6 +7 +7 BD+41 2695 V763 NN 3952 16 19 32 +01 08.7 0.165 287.2 -45.5 VAR F0 V 4.82 +0.34 +0.04 045.3 07.6 045.3 07.6 3.10 d -44 -16 -11 147449 BD+01 3215 Gl 620 16 20 07 -24 35.1 0.712 206.4 M1 K 10.23 +1.47 +1.18 +0.75 049.1 17.0 066. 13. r 9.33 d CD-24 12677 3186 V761 Gl 620.1A 16 20 38 -39 04.7 0.074 91.1 +17.0 G3/5 V 5.39 +0.63 +0.14 +0.22 066.4 10.7 078. 11. r 4.85 d +17 -3 -1 147513 CD-38 10983 Gl 620.1B 16 20 10 -39 06.8 0.08 90. +52.0 DA2 11.00 -0.14 -0.96 065.5 05.4 078. 11. r 10.46 d +8 +1 -3 CD-38 10980 W274 Gl 621 16 21 32 -13 31.5 0.316 227.6 +9.0 K3 V 8.40 +0.96 +0.72 +0.34 060.2 07.8 060.2 07.8 7.30 c +7 -24 +7 147776 BD-13 4418 G153-049 U408 Gl 622 16 22 17 -21 49.1 0.640 240.7 K5 K 10.40 +1.45 +1.18 +0.71 066.4 06.9 066.4 06.9 9.51 c BD-21 4352 3191 Gl 623 16 22 39 +48 28.4 1.231 111.6 -27.8 SB dM3 W 10.28 +1.48 +1.09 +1.02 131.7 03.9 131.7 03.9 10.88 a +22 +1 -47 G202-045 417 V163 AC+48:1595-89 SBO in ApJ 344, 441 Gl 624 16 23 04 -69 58.5 0.231 63.5 +7.6 SB G0 V 4.91 +0.55 +0.04 +0.19 092.4 10.2 092.4 10.2 4.74 c +12 +4 -6 147584 CP-69 2558 ZET Tra Gl 624.1A 16 23 18 +61 37.6 0.080 338.0 -13.7 G8 III 2.74 +0.91 +0.70 046.2 18.7 046.2 18.7 1.1 f -8 -11 -9 148387 ETA Dra Gl 624.1B 16 23 18 +61 37.6 0.080 338.0 K2 W 8.8 * 046.2 18.7 046.2 18.7 7.1 * f BD+61 1591 NN 3953 16 23 29 +26 08.4 0.184 271. m 12.24 +1.11 066. 13. r 11.34 d LTT 14889 L 1418-61 LP 386-49 NN 3954 16 23 56 -17 16.5 0.519 219.5 m 14.3 * +1.43 084. 13. r 13.9 * d 3197 LP 805-10 Gl 625 16 24 14 +54 25.1 0.420 108. -12.6 dM2 M 10.12 +1.61 +1.23 +0.96 159.3 04.6 159.3 04.6 11.13 a +6 -3 -16 G202-048 V767 AC+54:1646-56 AC+55:41703 GJ 1201 16 25 30 +09 19.3 0.469 191.5 DA s W 16.13 +0.38 -0.45 044.3 04.5 044.3 04.5 14.36 c G138-031 6 W327 Gl 626 16 25 32 +07 25.2 0.346 224.5 -35.0 dK8 M 8.83 +1.23 +1.22 +0.50 053.6 09.2 061. 08. r 7.76 c -21 -36 -14 148467 BD+07 3180 G017-018 V766 Gl 626.1 16 25 43 -78 47.3 0.141 239.6 +5.4 VAR K0 IV 3.89 +0.91 +0.62 +0.44C 054.1 15.3 054.1 15.3 2.6 e -4 -13 +2 147675 CP-78 1103 GAM Aps NN 3955 16 25 46 +15 40.8 0.304 177. m 13.18 +1.10 041. 08. r 11.24 d G138-033 LTT 14899 L 1274-24 LP 445-22 NN 3956 16 25 52 +25 18.3 0.057 171.7 G5 8.19 041. 05. o 6.25 c 148555 BD+25 3086 Gl 626.2 16 26 40 +36 52.2 0.864 326.4 +24. DZA6 13.85 +0.17 -0.67 064.0 03.5 064.0 03.5 12.88 b -65 -11 +14 G180-057 3200 W119 Ross 640 Gl 627 A 16 26 41 +18 31.1 0.514 318.0 -36.2 K3 V 7.68 +0.85 J+0.45 J+0.32 J 058.4 09.8 050. 06. r 6.17 c -58 -14 +10 148653 BD+18 3182 G138-034 3203 ADS 10075 V(AB) = 7.01 d(m) = 0.17 Gl 627 B 16 26 41 +18 31.1 0.514 318.0 K3 V 7.85* 058.4 09.8 050. 06. r 6.34* c 3204 a = 2.234" 236.07 yr GJ 2121 16 27 24 -14 33.3 0.539 243.5 M3 K 12.32: +1.52: +1.43: +1.09 058. 15. r 11.1 : e G153-057 3205 LTT 6579 Gl 628 16 27 31 -12 32.3 1.175 183.4 -13.0 SB M3.5 K 10.08 +1.58 +1.18 +1.20 244.7 06.3 244.7 06.3 12.02 a -6 -19 -17 BD-12 4523 G153-058 419 V164 NN 3957 16 28 06 -03 52.9 0.159 262.4 K5 s 9.58 +1.25 +1.22 +0.50 044. 06. r 7.80 c BD- 3 3952 Steph 1347 Gl 629 16 28 08 -38 54.1 0.543 232.5 -50.6 SB K0 V 7.24 +0.86 +0.48 +0.34 056.1 08.5 056.1 08.5 5.98 d -62 -28 +2 148704 CD-38 11019 3209 NN 3958 16 28 48 -87 19.0 0.066 170. DA6 14.58 +0.22 -0.63 041. 08. w 12.64 d W L 8-61 BPM 890 WD1628-873 GJ 1202 16 29 22 +17 40.9 0.886 202.7 k-m 12.78 +1.57 +1.14 +1.10 053.0 02.9 053.0 02.9 11.40 b G138-037 3210 NN 3959 16 29 39 +40 58.0 0.358 330. m+ 14.79 +1.72 +1.60 100. 29. r 14.8 e G180-060 Wo 9566 s 16 30 23 +03 21.2 0.420 243.0 -58.0 SB K1 K 8.85 +0.88 +0.54 +0.34 040.8 07.5 029. 05. r 6.16 d -47 -77 +0 149162 BD+03 3215 G017-022 LTT 14916 GJ 1203 16 30 28 +12 43.1 0.788 260.2 k-m 12.18: +1.46 +1.14 +1.06 050.7 03.6 050.7 03.6 10.71: b G138-039 3213 NN 3960 16 30 29 +09 56.6 0.287 57. m 13.05 +1.66 +1.18 060. 11. r 11.94 d G138-040 NN 3961 16 30 50 -53 28.7 0.671 195.4 m 12.0 * +1.02 056. 11. r 10.7 * d 3216 LTT 6608 L 266-166 Gl 629.2A x 16 32 05 -04 07.0 0.704 193.3 -171.6 SB G5 Ve 9.62 +0.74 +0.11 +0.32 050.9 09.6 050.9 09.6 8.15 d -126 -89 -100 149414 BD-03 3968 G017-025 3215 LFT 1290 LTT 6621 NN 3962 16 32 10 +03 24.2 0.240 132. k 11.57 +1.48 +1.24 048. 23. r 10.0 f G017-026 LTT 14922 NN 3963 16 32 19 -27 11.3 0.924 179.7 m 14.2 * +1.31 057. 09. r 13.0 * d 3218 LP 862-184 Gl 629.3 s 16 32 33 -49 11.2 0.599 184.8 M1 : K 12.38 +1.48 +1.15 +0.96 051.6 13.6 051.6 13.6 10.9 e 3223 L 339-106 NN 3964 16 32 35 -30 44.5 1.189 225.3 M3.5 K 12.68 +1.54 +1.02 +1.05 046. 12. r 11.0 e 423 LTT 6625 L 555-14 LP 918-1 Gl 630 s 16 33 17 +33 24.3 0.263 252. dM0 M 11.06 +1.34 +1.27 +0.60 045.0 08.1 029. 04. r 8.37 d G180-062 V770 AC+33:45152 NN 3965 16 33 25 +43 24.0 0.356 143.6 DA8 14.82 +0.42 -0.42 066.5 03.0 066.5 03.0 13.93 a G180-063 6 W PG Gl 630.1A 16 33 29 +57 14.8 1.620 316.0 -118.6 SB dM4 e W 12.90 +1.60 +1.05 +1.32 069.0 02.9 069.0 02.9 12.09 a -103 -121 -34 G225-067 421 LP 101-015 Gl 630.1B 16 33 31 +57 15.2 1.620 316.0 DQ8 15.00 +0.49 -0.36 069.0 02.9 069.0 02.9 14.19 a G225-068 422 W258 LP 101-016 NN 3966 16 33 37 +35 07.2 0.197 137. m 12.95 +1.27 087. 15. r 12.65 d LP 275-68 GJ 1204 16 33 43 +08 54.9 0.557 254.1 m 13.80 +1.65 +1.29 065.2 04.2 065.2 04.2 12.87 b G138-043 3221 Gl 631 16 33 44 -02 13.2 0.552 124.6 -12.1 K0 Ve 5.75 +0.82 +0.42 +0.28 095.1 08.1 095.1 08.1 5.64 b +3 +0 -30 149661 BD-01 3220 3224 Gl 632 s 16 34 28 +79 53.7 0.126 135.7 -16.9 dG3 W 7.06 +0.62 +0.06 044.8 22.9 034. 06. r 4.72 d +20 -4 -13 150706 BD+80 519 Gl 632.1 16 34 52 +31 12.2 0.553 142.4 -10.3 dK6 W 9.49 +1.20 +1.16 +0.46 060.5 10.7 060.5 10.7 8.40 d +31 -7 -31 149957 BD+31 2875 G169-020 3226 V771 Gl 632.2A s 16 35 48 +76 04.9 0.18 41. -7.1 K7 K 10.02 +1.15 J +0.47 J 050.9 13.6 029. 05. r 7.33 d -14 +5 -26 BD+76 614 V(AB) = 9.95 d(m) = 3. Gl 632.2B s 16 35 47 +76 04.9 0.16 38. DA K 13. * 050.9 13.6 029. 05. r 10. * e AC+76:5655 sep 3.7" 285d (1895) Gl 632.3 s 16 36 13 +05 31.4 0.18 267. G 10.22 +0.99 046.4 10.2 019. 03. r 6.61 d AC+05:125-28 Gl 633 16 37 09 -45 54.2 0.536 137.9 +30. M3 K 12.68 +1.61 +1.20 +1.07 104.6 11.9 104.6 11.9 12.78 c +27 -13 -24 3233 L 339-019 LTT 6662 Wo 9572 s 16 37 22 +05 36.5 0.336 162.4 +51.0 K2 K 8.67 +0.89 +0.60 039.6 30.8 032. 05. r 6.20 d +71 -8 -4 150281 BD+05 3246 G017-031 LTT 14942 NN 3967 16 37 32 +00 48.3 0.217 135. m 13.69 +1.70 +1.33 089.3 04.6 089.3 04.6 13.44 b LP 625-34 Gl 634 16 37 56 -43 53.0 0.614 219.4 -42. M3 K 11.57 +1.55 +0.92 054.8 10.7 054.8 10.7 10.26 d -57 -36 -3 CD-43 11010 3235 Gl 634.1 s 16 38 31 -02 45.3 0.440 183.1 -40.1 dG2 W 7.22 +0.64 +0.07 +0.35C 045.8 06.0 045.8 06.0 5.52 c -15 -44 -38 150433 BD-02 4230 Wo 9574 16 38 41 -17 38.8 0.022 260.3 -22.1 G7.5 II CN 4.96 +1.11 +0.87 043.7 12.2 043.7 12.2 3.2 e -21 -2 -5 150416 BD-17 4618 NN 3968 16 39 02 +36 24.6 0.222 324. M2 s 11.50 +1.50 +0.93 055. 10. r 10.20 d LTT 14949 Ross 812 NN 3969 16 39 06 -05 43.5 0.225 175. g-k 12.06 +1.50 +1.25 043. 21. r 10.2 f G017-033 LTT 6674 L 915-5 LP 685-43 Gl 635 A 16 39 24 +31 41.5 0.614 309.9 -70.4 SB G0 IV 2.91 +0.65 J+0.21 J+0.23 J 099.0 02.8 099.0 02.8 2.89 a -54 -47 -26 150680 BD+31 2884 3234 ZET Her ADS 10157 V(AB) = 2.81 d(m) = 2.52 Gl 635 B 16 39 24 +31 41.5 0.614 309.9 SB? K0 V 5.4 * 099.0 02.8 099.0 02.8 5.4 * a a = 1.355" P = 34.487 yr NN 3970 16 39 25 -37 14.8 0.093 176.3 G8 V 7.13 +0.77 050. 07. r 5.62 d 150474 CD-37 10931 GJ 1205 16 39 50 +53 47.0 0.236 212. DC7 15.06 +0.33 -0.52 048.1 03.5 048.1 03.5 13.47 b W329 LP 137-43 GD356 PG NN 3971 16 40 22 +67 41.5 0.451 325.6 m 15.65 +1.95 075.2 04.3 075.2 04.3 15.03 b G240-023 6 LP 069-457 Gl 635.1 16 40 41 +79 00.8 0.060 334.3 -20.9 gG9 W 6.32 +1.14 +1.20 046.0 18.8 046.0 18.8 4.6 f +1 -19 -11 151623 BD+79 511 Gl 637 16 42 30 -72 52.8 0.701 226.7 -27. m 11.35 +1.57 +1.22 +0.86 067.0 12.4 067.0 12.4 10.48 d -50 -21 +16 3242 L 074-113 Gl 637.1 16 42 44 +68 11.3 0.522 325.8 +10.4 K1 V 7.56 +0.79 +0.36 048.4 11.6 044. 07. r 5.78 d -53 -10 +18 151541 BD+68 883 G240-025 3238 Gl 638 16 43 15 +33 35.7 0.389 352.6 -30.6 K7 V 8.11 +1.37 +1.29 +0.57 103.2 03.0 103.2 03.0 8.18 a -29 -12 -16 151288 BD+33 2777 G181-006 Wo 9577 s 16 43 35 -30 31.6 0.168 228.4 +43. K5 K 10.59 +1.41 +1.26 040.8 15.3 034. 10. r 8.2 e +38 -29 +11 CD-30 13458 NN 3972 16 44 00 +16 34.4 0.585 206.4 m 11.65 +1.05 072. 14. r 10.94 d G138-064 3240 LTT 14970 L 1276-44 LP 446-6 Wo 9578 16 44 21 +56 52.2 0.065 10.7 -3.6 SB F2 V 4.85 +0.38 -0.06 044.1 11.9 044.1 11.9 3.1 e -7 -1 -4 151613 BD+57 1702 Gl 638.1 p 16 45 16 -47 37.9 0.096 246.6 +29.4 K0 V 7.38 +0.91 +0.59 +0.32 018.1 10.2 057. 09. r 6.16 d +25 -18 +3 151337 CD-47 11068 NN 3973 16 45 54 -15 39.0 0.248 180. M2 s 10.94 +1.50 +0.88 063. 11. r 9.94 d LP 806-8 Gl 639 s 16 46 50 +37 06.3 0.369 192.0 +2.7 K7 V 8.41 +0.82 +0.44 052.3 11.4 052.3 11.4 7.00 d +29 -16 +4 151877 BD+37 2804 G181-009 Gl 639.2 x 16 47 00 -64 21.2 0.530 256.1 g 11.00 +0.72 +0.04 +0.29 051.0 13.6 051.0 13.6 9.5 e 3248 AC-64:N301-65 GJ 1206 16 47 38 +59 08.8 0.317 154. DAV4 12.23 +0.18 -0.64 081.2 04.6 081.2 04.6 11.78 b G226-029 W368 LP 101-148 NN 3974 p 16 47 43 +39 21.8 0.296 162.7 +26. K4 s 9.75 +1.27 +0.54 014.3 13.6 044. 06. r 7.97 c +39 +11 +7 BD+39 3048 G181-010 V319 LTT 14979 Gl 640 p 16 47 54 +18 59.2 0.087 200.0 -4.8 dK5 M 8.90 +1.02 +0.89 +0.40 036.2 06.8 040. 04. r 6.91 c +3 -11 -3 151995 BD+19 3174 V779 NN 3975 16 48 17 -04 45.4 0.762 249.9 k 13.4 * +1.17 048. 09. r 11.8 * d G017-038 3246 NN 3976 16 48 50 +22 31.8 0.410 3. m 14.08 +1.75 +1.46 100. 15. r 14.08 d G169-029 NN 3977 s 16 48 59 +47 48.9 0.11 249. -0.4 dK8 M 9.42 +1.19 +1.12 +0.42 042.6 12.4 037. 04. r 7.26 c +2 -10 +10 BD+47 2391 V781 NN 3978 p 16 49 11 +38 14.0 0.078 19.3 +6.0 dK8 M 10.55 +1.59 +1.14 +0.98 027.4 13.6 102. 20. r 10.59 d -1 +6 +3 BD+38 2847 V320 AG+38:1528 Gl 641 16 50 27 +00 04.5 1.658 205.8 +45.4 G8 V 6.64 +0.76 +0.32 +0.24 060.5 08.9 060.5 08.9 5.55 d +84 -108 +10 152391 BD+00 3593 G019-004 426 NN 3979 16 51 15 +40 10.2 0.219 192. m 13.44 +1.16 045. 09. r 11.71 d G203-033 Gl 642 16 51 54 +11 59.5 0.670 299.6 -67.3 dM1.5 W 10.74 +1.45 +1.24 +0.71 058.1 18.8 045. 09. r 9.01 d -84 -43 +25 G138-067 3251 AC+12:1155-87 Gl 643 16 52 45 -08 13.9 1.190 222.5 -14.1 SB sdM4 W 11.80 +1.69 +1.35 +1.21 171.9 07.3 171.9 07.3 12.98 a -8 -35 +0 427 Wolf 629 cpm with Gl 644 sep 72" 315d Gl 644 A 16 52 48 -08 14.7 1.183 222.2 +12.1 M3 J K 9.69 +1.57 J+1.08 J+1.08 J 153.9 02.6 153.9 02.6 10.63 a +16 -34 +9 152751 BD-08 4352 428 V782 Wolf 630 V1054 Oph V(AB) = 9.02 d(m) = 0.18 Gl 644 B 16 52 48 -08 14.7 1.183 222.2 9.9 * 153.9 02.6 153.9 02.6 10.8 * a a = 0.218" P = 1.715 yr Gl 644 C 16 52 55 -08 18.2 1.190 222.5 +20. M7 16.78 +1.99: +1.92 153.9 02.6 153.9 02.6 17.72 a +23 -32 +12 429 VB 8 sep(AC) 221" Gl 645 16 53 24 -36 58.7 0.469 198. M1 K 11.44 +1.51 +1.12C 059.6 08.4 059.6 08.4 10.32 d L 484-031 GJ 1207 16 54 26 -04 16.0 0.636 126.3 dM3.5 K 12.28 +1.60 +1.11 +1.24 104.4 08.0 104.4 08.0 12.37 b G019-007 3255 Wo 9581 16 54 28 -55 54.8 0.038 201.2 -6.0 K5 III 3.12 +1.60 +1.97 +0.64 041.8 15.3 041.8 15.3 1.2 f -7 -1 +0 152786 CP-55 7766 GJ 1208 16 55 01 +21 31.8 0.578 176.9 +46. DA6 14.06 +0.25 -0.56 043.0 03.1 043.0 03.1 12.23 b +50 -35 -19 G169-034 3254 W197 NN 3980 16 55 04 +13 32.9 0.211 134. m 14.35 +1.25 042. 08. r 12.47 d LP 506-37 Gl 646 A 16 55 26 -39 29.2 0.331 55.6 +42.5 K5 V 8.50 +1.16 J+1.08:J+0.64CJ 073.0 10.2 073.0 10.2 7.82 d +46 +9 -5 153026 CD-39 10940 V(AB) = 8.31 d(m) = 1.9 Gl 646 B 16 55 26 -39 29.2 0.331 55.6 10.4 * 073.0 10.2 073.0 10.2 9.7 * d sep 3.9" 9d (1931) Gl 647 p 16 55 28 +13 22.0 0.10 29. dM0 M 10.66 +1.36 +1.31 +0.67 026.2 04.1 026.2 04.1 7.75 d V783 AC+13:804-98 Gl 648 16 55 45 +65 12.7 0.229 76.6 -20.9 SB F6 V 4.89 +0.48 -0.03 +0.17t 052.9 09.7 059. 07. r 3.74 c +1 -6 -27 153597 BD+65 1157 Gl 649 16 56 07 +25 49.6 0.527 191.9 +4.3 VAR dM2 W 9.65 +1.50 +1.20 +0.85 105.0 04.5 105.0 04.5 9.76 a +20 -13 +1 BD+25 3173 G169-038 3257 V785 NN 3981 16 56 09 +14 02.6 0.380 271. m 13.13 +1.26 077. 13. r 12.56 d G139-003 Gl 649.1A 16 56 30 +47 26.3 0.317 330.1 -6.6 dK8 J M 7.83 +0.98 +0.80 +0.34 057.0 04.4 057.0 04.4 6.61 b -26 -6 +6 153557 BD+47 2415 G203-037 V887 LTT 15019 Gl 649.1B 16 56 30 +47 26.3 0.317 330.1 11.19 +1.47 +1.04 +0.81 057.0 04.4 057.0 04.4 9.97 b Gl 649.1C 16 56 19 +47 26.0 0.303 332.5 -7.0 dK8 M 7.90 +1.00 +0.82 +0.34 057.0 04.4 057.0 04.4 6.68 b -25 -6 +5 153525 BD+47 2411 G203-036 V886 LTT 15017 NN 3982 16 57 44 -61 29.6 0.204 195.9 K3 V 8.84 +1.04 +0.92 +0.39 040. 06. r 6.85 d CD-61 5703 U422 CP-61: 5825 NN 3983 16 58 18 +25 25.3 0.186 328. m 13.22 +1.09 039. 08. r 11.18 d LP 587-31 Gl 650 s 16 58 22 -13 29.4 0.320 184.1 +83.4 SB G2 V 7.12 +0.58 +0.10 +0.33C 058.5 13.6 032. 06. r 4.65 d +91 -29 +1 153631 BD-13 4528 G3 Kui, SBO (A&A 195,129) NN 3984 16 58 39 +08 16.9 0.290 236. m 13.43 +1.17 047. 09. r 11.79 d G139-005 NN 3985 q 16 59 09 -53 09.9 0.150 178.6 +7.0 F6 V 5.29 +0.50 +0.01 031.5 04.6 040. 04. s 3.30 c -1 -15 -12 153580 CP-53 8316 NN 3986 16 59 50 +77 47.2 0.259 56. m 12.67 +1.05 045. 09. r 10.94 d G259-005 NN 3987 17 00 09 -05 59.8 dM2 10.85 +1.50 +1.22 +0.78 050. 08. r 9.34 d BD- 5 4394 Steph 1422 Gl 651 17 01 12 +47 08.4 0.874 7.9 -47.3 G8 V 6.77 +0.73 +0.27 061.8 06.0 061.8 06.0 5.72 c -73 -12 -35 154345 BD+47 2420 3260 Gl 652 17 01 19 -28 30.6 0.277 160.5 +15.3 G8 IV-V 6.58 +0.83 +0.54 +0.38C 069.8 08.2 069.8 08.2 5.80 c +16 -12 -14 154088 CD-28 12769 GJ 1209 17 02 08 +17 00.9 1.136 174.5 +75. m 12.28 +1.55 +1.18: +1.04 057.9 03.0 057.9 03.0 11.09 b +119 -13 +2 G170-012 430 NN 3988 17 02 11 +51 28.0 0.646 13.0 k-m 13.56 +1.75 105.2 02.5 105.2 02.5 13.67 a G203-042 3262 Gl 653 17 02 27 -04 59.0 1.471 218.5 +34.2 K5 V 7.73 +1.16 +1.06 +0.49 088.7 05.7 088.7 05.7 7.47 b +48 -68 +21 154363 BD-04 4225 G019-013 431 V787A Wolf 635 LFT 1316 Wo 9582 A 17 02 37 +59 39.0 0.446 303.4 -73.1 K4 V 8.65 +1.04 +0.94 +0.38 047.6 07.6 043. 05. r 6.82 c -34 -80 -14 154712 BD+59 1783 G226-043 LTT 15047 Wo 9582 B 17 02 38 +59 39.2 0.458 304.7 -72.7 K4 K 10.31 +1.40 +1.33 +0.64 047.6 07.6 043. 05. r 8.48 c -36 -80 -14 G226-044 LTT 15048 sep 17" 44d Gl 654 17 02 37 -05 00.7 1.461 219.2 +34.6 M3.5V 10.08 +1.44 +1.07 +0.91 104.7 10.6 104.7 10.6 10.18 c +46 -55 +20 BD-04 4226 G019-014 432 V787B Wolf 636 LFT 1317 comp. to Gl 653 sep 18.5" 146d Gl 654.1 17 02 44 +00 46.5 0.335 183.1 -15.8 F9 V 6.00 +0.58 +0.05 +0.31C 046.9 11.9 051. 09. r 4.54 d +2 -29 -19 154417 BD+00 3629 Gl 654.2 17 04 00 +15 17.8 0.127 224.9 -30.9 K0 V 7.09 +0.94 +0.67 069. 11. r 6.28 d -18 -23 -13 154653 BD+15 3108 Wo 9584 A 17 04 17 +54 32.1 0.113 316.3 -14.3 F7 V 5.63 +0.47 J+0.03 J 046.8 08.3 043. 06. r 3.80 d -12 -15 -2 154906 BD+54 1857 BS 6370 ADS 10345 V(AB) = 4.93 d(m) = 0.10 Wo 9584 B 17 04 17 +54 32.1 0.113 316.3 -16.5 SB F7 V 5.73* 046.8 08.3 043. 06. r 3.90* d -12 -17 -4 154905 BS 6369 a = 3.945" P = 672 yr Wo 9584 C 17 04 17 +54 32.1 0.113 316.3 M3 : K 13.5 * 046.8 08.3 043. 06. r 11.7 * d sep(AB-C) 14" Gl 654.3 17 04 36 -41 39.3 0.385 213.2 -19.1 K5 V 8.29 +1.05 +0.90 +0.40 053.0 11.9 055. 08. r 6.99 d -27 -27 -2 154590 CP-41 7862 Gl 654.4 s 17 04 50 +88 41.8 0.029 0.0 -10.3 K0 H 8.32 +0.87 +0.54 047.5 10.2 036. 05. r 6.10 d +1 -9 -6 163545 BD+88 105 Gl 655 17 05 01 +21 37.1 0.481 268.6 -49.9 M3 K 11.61 +1.56 +1.30 +1.06: 065.5 07.2 065.5 07.2 10.69 c -35 -49 +1 G170-017 5324 Ross 863 GJ 1210 17 05 17 +07 26.3 0.653 233.2 m 14.01 +1.88 +1.44 +1.41 078.0 05.3 078.0 05.3 13.47 b G139-012 3265 GJ 1211 17 05 37 +03 01.7 0.336 176. DZ7 15.19 +0.46 -0.25 057.3 06.2 057.3 06.2 13.98 c G139-013 W494 Gl 656 17 05 40 -60 40.4 0.612 8.9 +8.8 K0 V 7.41 +0.89 +0.53 +0.33 067.8 08.1 067.8 08.1 6.57 c +30 +27 +17 154577 CP-60 6718 3268 NN 3989 17 07 05 +03 59.7 0.066 208.4 G5 7.95 048. 05. o 6.36 c 155121 BD+ 4 3342 Gl 656.1A 17 07 30 -15 39.9 0.102 21.6 -2.4 A1 V 3.02 +0.06 J+0.08 J+0.03CJ 051.1 09.6 051.1 09.6 1.56 d -4 +9 +1 155125 BD-15 4467 ETA Oph BS 6378 ADS 10374 V(AB) = 2.43 d(m) = 0.36 Gl 656.1BC 17 07 30 -15 39.9 0.102 21.6 A3 V 3.4 * 051.1 09.6 051.1 09.6 1.9 * d Comp C : V = 12.34, B-V = 0.83, U-B = 0.25 Woolley NN 3990 17 07 34 +11 59.3 0.380 256. m 13.99 +1.26 052. 09. r 12.57 d G139-017 LTT 15079 L 1205-52 LP 507-5 NN 3991 17 07 56 +43 45.3 0.428 129. M3 L 11.80 +1.48 +0.89 +1.25 131.8 3.1 125. 36. r 12.3 e G203-047 USNO 752 pos? Gl 657 17 08 34 -43 10.5 0.288 175.4 -27. F0 IVn 3.33 +0.41 +0.09 +0.23 057.5 08.5 057.5 08.5 2.13 d -31 -10 -14 155203 CD-43 11485 ETA Sco Gl 659 A 17 09 08 +54 33.4 0.137 147.8 +4.2 dK8 M 8.85 +1.16 +1.08 +0.44 049.5 06.4 049.5 06.4 7.32 c +12 +6 -3 155674 BD+54 1861 V790 Gl 659 B 17 09 10 +54 33.1 0.140 141.1 +2.9 dK8 M 9.34 +1.25 +1.21 +0.50 049.5 06.4 049.5 06.4 7.81 c +12 +6 -5 BD+54 1862 Gl 660 A 17 09 18 -01 47.3 0.549 234.7 M3.5 J K 12.05 +1.60 J+1.26 J+1.11 J 085.3 04.5 085.3 04.5 11.70 b G019-015 3269 L 989-020 V(AB) = 11.35 d(m) = 0.1 Gl 660 B 17 09 18 -01 47.3 0.549 234.7 12.2 * 085.3 04.5 085.3 04.5 11.9 * b a = 0.69" P = 33.5 yr Heintz AJ 101, 1071 NN 3992 17 09 52 +38 30.1 0.233 96. m 11.61 +1.15 101. 20. r 11.63 d LTT 15087 Wolf 654 Gl 660.1 s 17 10 11 -05 03.4 0.708 164.7 M0 K 11.62 +1.46 +1.06 +0.76 049.6 06.5 049.6 06.5 10.10 c G019-016 3271 AC-05:4400-84 NN 3993 17 10 14 +56 43.2 0.082 185.2 G5 6.98 +0.70 +0.22 045. 06. r 5.25 c 155902 BD+56 1954 Gl 661 A 17 10 40 +45 44.8 1.582 171.3 -30.0 M3 J K 9.96 +1.49 J+1.01 J+1.08 J 159.5 03.1 159.5 03.1 10.97 a +38 -32 -26 155876 BD+45 2505 G203-051 433 V165 Kui 79 V(AB) = 9.38 d(m) = 0.48 Gl 661 B 17 10 40 +45 44.8 1.582 171.3 M3.5 K 10.4 * 159.5 03.1 159.5 03.1 11.4 * a 434 a = 0.71" P = 12.98 yr GJ 1212 17 10 59 -08 21.4 0.604 223.6 -15. dM1 12.05 +1.61 +1.18 +1.10 063.1 09.5 063.1 09.5 11.05 d -6 -47 +4 3272 GJ 1213 p 17 11 26 +42 23.7 1.083 250.1 +10.7 dM1 W 10.10 +1.27 +1.13 +0.63 037.2 04.0 037.2 04.0 7.95 c +32 -82 +107 BD+42 2810 G203-052 435 V167 Gl 663 A 17 12 16 -26 31.8 1.235 203.6 +0.5 K1 Ve 5.07 +0.85 +0.53 +0.32 J 187.6 07.8 187.6 07.8 6.44 a +0 -31 -6 155886 CD-26 12026 437 ADS 10417AB V(AB) = 4.32 d(m) = 0.04 Gl 663 B 17 12 16 -26 31.9 1.231 202.0 +0.9 K1 Ve 5.11 +0.86 +0.63 187.6 07.8 187.6 07.8 6.48 a +1 -30 -7 155885 438 a = 13.91" P = 548.7 yr NN 3994 17 12 41 +26 58.9 0.321 300. m 12.35 +1.52 +1.24 +0.95 040. 07. r 10.36 d G170-028 LTT 15104 L 1421-36 LP 332-9 GJ 1214 17 12 49 +05 01.7 0.890 142.6 m 14.67 +1.74 +1.17 +1.39 077.4 05.4 077.4 05.4 14.11 b G139-021 3275 NN 3995 AB 17 12 57 +24 53.5 0.16 189. -40. SB A3 IV 3.14 +0.08 +0.08 +0.03 039.3 06.7 039.3 06.7 1.11 d -8 -37 -23 156164 BD+25 3221 BS 6410 ADS 10424 sep 8.5" d(m) = 5.6 Gl 664 17 13 09 -26 28.6 1.222 203.1 -0.1 VAR K5 Ve 6.33 +1.16 +1.07 +0.44 182.0 12.4 182.0 12.4 7.63 b +0 -31 -7 156026 CD-26 12036 439 ADS 10417C cpm to Gl 663, sep 732" NN 3996 p 17 13 31 -12 07.4 0.17 96. +21. dM0 M 10.33 +1.37 +0.61 030.1 15.3 042. 06. r 8.45 d +23 +13 -11 BD-12 4699 V166 BPM 78844 NN 3997 17 13 39 +19 03.3 M2 s 10.36 +1.55 +1.20 +0.81 069. 12. r 9.55 d BD+19 3268 Steph 1453 NN 3998 17 13 40 +11 07.0 0.369 201. M2.5 L 10.84 +1.38 +1.27 +0.86 059. 10. r 9.69 d BD+11 3149 G139-023 LTT 15111 GJ 2128 17 14 17 +08 06.8 0.277 256. M3.5 L 11.49 +1.55 +1.23 +1.00 068. 13. r 10.65 d G139-027 LTT 15114 NN 3999 A 17 14 57 -11 46.6 0.298 180. M3 K 12.83 +1.49 +1.15 048. 08. r 11.24 d LTT 6883 L 845-15 LP 747-20 NN 4000 B 17 14 56 -11 46.1 0.298 180. M3 K 12.91 +1.49 +1.12 048. 08. r 11.32 d LTT 6882 L 845-16 LP 747-19 sep 30" 338d Gl 665.1 17 15 04 -24 01.2 0.130 126.6 -14.7 G3 V 6.59 +0.62 043. 05. r 4.76 c -13 -1 -16 156365 CD-23 13297 Gl 666 A 17 15 15 -46 35.1 1.053 80.5 +23. G8 V 5.53 +0.77 +0.35 +0.28 131.9 06.1 131.9 06.1 6.13 b +28 +19 -29 156274 CD-46 11370 444 Gl 666 B 17 15 15 -46 35.1 1.053 80.5 +25.1 M0 V 8.69 +1.41 +0.89 +0.81 131.9 06.1 131.9 06.1 9.29 b +30 +18 -29 445 GJ 1215 17 15 25 +11 43.7 0.539 218.7 m 15.10 +1.88: +1.50 078.8 04.9 078.8 04.9 14.58 b G139-029 3277 Gl 667 A 17 15 33 -34 56.2 1.167 99.2 0.0 K3 V 6.29 +1.04 J+0.82 J+0.42 J 140.0 06.0 140.0 06.0 7.02 a +3 +17 -35 156384 CD-34 11626 442 U433 V(AB) = 5.91 d(m) = 0.95 Gl 667 B 17 15 33 -34 56.2 1.167 99.2 +1.0 K5 V 7.2 * 140.0 06.0 140.0 06.0 7.9 * b +4 +17 -35 AB: a = 1.82" P = 42.09 yr Gl 667 C 17 15 34 -34 56.5 1.180 098.3 +0.6 M2.5 K 10.24 +1.57 +1.16 +0.96 140.0 06.0 140.0 06.0 10.97 a +4 +18 -36 443 sep(AC) 30.5" 129d - 30.8" 136d (1889-1948) Gl 667.1 s 17 15 40 -75 17.7 0.978 256.5 +58.9 G2 V 7.00 +0.60 -0.03 +0.22 042.0 08.9 035. 05. r 4.72 d +5 -127 +70 155918 CP-75 1368 3285 NN 4001 17 15 45 -01 43.7 0.138 141. K7 s 10.59 +1.44 +0.75 051. 08. r 9.13 d V791 BPM 78873 NN 4002 17 16 10 +18 12.2 0.231 182. m 13.02 +1.15 053. 10. r 11.64 d LTT 15124 L 1277-48 LP 447-38 Gl 668.1 p 17 17 19 -05 51.9 0.186 168.9 -33.1 G9 V 6.32 +0.85 +0.47 +0.31 023.5 08.1 085. 13. r 5.97 d -26 -16 -16 156826 BD-05 4426 Gl 669 A 17 17 54 +26 32.8 0.430 330. -33.7 dM4 e W 11.42 +1.55 +1.15 +1.18 093.3 01.9 093.3 01.9 11.27 a -36 -18 -3 G170-035 Ross 868 Gl 669 B 17 17 53 +26 32.8 0.430 330. -34.0 dM5 e W 12.97 +1.64 +0.73 +1.39 093.3 01.9 093.3 01.9 12.82 a -36 -19 -4 G170-034 Ross 867 Gl 670 A 17 18 00 -21 03.7 0.313 132.0 -8.8 F2 V 4.41 +0.39 J-0.05 J+0.24CJ 059.8 06.5 059.8 06.5 3.29 c -5 -4 -26 156897 BD-20 4731 XI Oph V(AB) = 4.39 d(m) = 4.5 Gl 670 B 17 18 00 -21 03.7 0.313 132.0 K3 K 8.9 * 059.8 06.5 059.8 06.5 7.8 * c sep 2.7" 66d - 3.7" 50d (1931-1959) Gl 671 17 18 17 +41 46.5 0.863 159.8 -18.9 M3 K 11.37 +1.56 +1.04 077.4 04.8 077.4 04.8 10.81 b +42 -20 -31 G181-039 3281 AC+41:726-154 Gl 672 17 18 47 +32 31.9 1.050 173.0 -79.1 G2 V 5.39 +0.62 +0.07 +0.24 073.7 05.5 073.7 05.5 4.73 b +22 -80 -63 157214 BD+32 2896 441 GJ 1216 17 19 26 +49 19.2 1.304 155.5 m 14.48: +1.66: 058.7 05.6 058.7 05.6 13.32: c G203-063 446 NN 4003 17 19 47 +21 28.4 0.304 327. m 13.84 +1.28 060. 10. r 12.73 d G170-036 GJ 1217 s 17 19 52 -14 54.4 0.206 207. -56. K5 V 10.84 +1.41 +1.34 +0.62 042.7 07.0 042.7 07.0 8.99 d -50 -31 -14 BD-14 4622 V168 LTT 6914 Gl 672.1 17 20 35 -32 11.8 0.596 198.0 M2 K 11.64: +1.50 +0.87 048.4 10.2 048.4 10.2 10.06: d 3286 LP 920-1 L 557-068 NN 4004 17 20 40 -80 08.1 0.681 314.7 m 12.1 * +1.15 081. 16. r 11.6 * d 3295 LTT 6920 L 21-3 NN 4005 17 21 39 -04 19.1 0.265 245. M2 s 12.19 +1.51 +1.04 053. 11. r 10.81 d LTT 6924 L 989-38 LP 687-31 Gl 673 17 23 16 +02 10.2 1.315 206.1 -23.3 K7 V 7.53 +1.36 +1.27 +0.60 128.9 03.5 128.9 03.5 8.08 a +1 -53 -10 157881 BD+02 3312 G019-024 447 V794 Gl 673.1 17 23 19 -24 07.9 0.118 180.0 -37.2 A9 V 4.17 +0.28 +0.12 +0.14C 044.2 08.2 044.2 08.2 2.40 d -36 -12 -11 157792 CD-24 13337 GJ 1218 17 23 33 -62 24.1 0.996 197.3 +28. m 12.68: +1.48: +1.10 +1.22 078. 15. r 12.14: d -10 -62 -21 3292 NN 4006 x 17 23 39 +01 50.9 0.04 000. 10.90 +0.67 +0.30 073.7 19.8 073.7 19.8 10.2 e VVO 251 AC+02:2142-173 NN 4007 17 24 11 -25 06.7 0.645 137.9 M3.5 K 13.35 +1.20 053. 10. r 11.97 d 3291 LTT 6936 L 630-44 LP 864-1 Gl 674 17 24 53 -46 50.6 1.044 147.0 -10.2 M3 K 9.37 +1.53 +1.21 +1.03 219.7 12.1 219.7 12.1 11.08 b -15 -5 -19 CP-46 8664 449 Gl 675 17 25 09 +67 20.9 0.534 271.7 -38.3 SB K0 V 6.43 +0.76 +0.29 075.7 06.2 075.7 06.2 5.83 b +1 -50 +7 158633 BD+67 1014 3287 GJ 1219 17 25 27 +14 31.8 1.142 254.4 m 13.69 +1.76 +1.21 +1.18 050.8 07.0 050.8 07.0 12.22 c G139-039 448 NN 4008 17 26 05 -23 47.7 0.310 258.3 K5 V 9.66 +1.29 +0.55 045. 07. r 7.93 d 158233 CD-23 13396 CP-23: 6597 LTT 6946 V-R = 0.78 Weis Gl 676 A 17 26 15 -51 35.7 0.30 238. -27.2 M0 9.58 +1.46 +1.31 +0.94C 083.3 07.5 083.3 07.5 9.18 b -29 -5 +12 CP-51 10396 Gl 676 B 17 26 20 -51 35.6 0.29 240. m 13.31 +1.51 083.3 07.5 083.3 07.5 12.91 b NN 4009 17 26 47 +37 29.6 0.190 173. m 13.35 +1.16 047. 09. r 11.71 d LTT 15193 Wolf 750 Gl 677 A s 17 27 24 +29 26.0 0.341 214.5 -8.6 dM0 J W 9.55 +1.15 J+1.03 J+0.48 J 048.2 04.5 048.2 04.5 7.97 c +18 -29 +5 BD+29 3029 G181-049 V061 ADS 10585 V(AB) = 8.97 d(m) = 0.38 Gl 677 B s 17 27 24 +29 26.0 0.341 214.5 9.93* 048.2 04.5 048.2 04.5 8.35* c a = 0.60" P = 60.0 yr Gl 678 A 17 27 49 -01 01.4 0.213 214.3 -77.3 SB G8 IV-V 5.98 +0.72 J+0.31 J+0.24 J 050.5 05.0 050.5 05.0 4.50 c -61 -47 -21 158614 BD-00 3300 ADS 10598 V(AB) = 5.31 d(m) = 0.19 Gl 678 B 17 27 49 -01 01.4 0.213 214.3 -73.8 G8 IV-V 6.2 * 050.5 05.0 050.5 05.0 4.7 * c -58 -45 -20 a = 1.017" P = 46.40 yr Gl 678.1A 17 27 55 +05 35.4 0.262 174.4 -3.8 M1 V 9.30 +1.49 +1.23 +0.76 070.8 27.3 100. 21. r 9.30 d +4 -10 -8 BD+05 3409 G139-043 V321 comp B optical NN 4010 17 28 54 +47 26.3 0.194 66.6 G5 7.21 050. 06. o 5.70 c 159062 BD+47 2491 Gl 679 17 30 13 +34 18.3 0.256 284.7 -52.0 G5 V 6.56 +0.65 +0.17 054.8 06.2 054.8 06.2 5.25 c -29 -48 -7 159222 BD+34 2989 NN 4011 17 30 54 +50 27.4 0.535 178.8 m 12.74 +1.47 +1.02 +1.06 047.0 08.1 047.0 08.1 11.10 d G203-071 3298 Gl 680 17 31 24 -48 39.3 0.46 7. M0 K 10.15 +1.56 +1.21 +1.24C 081.9 13.6 081.9 13.6 9.72 d CP-48 9312 Gl 681 17 32 37 +12 35.7 0.257 152.6 +12.6 SB A5 III 2.08 +0.15 +0.10 +0.00 064.6 03.9 064.6 03.9 1.13 b +21 +1 -9 159561 BD+12 3252 ALF Oph NN 4012 17 33 12 -54 24.0 0.446 193. DA8 15.8 * +0.46 -0.45 048. 09. w 14.2 * d W LTT 6999 BPM 24960 L 270-137 Gl 682 17 33 28 -44 16.6 1.155 216.3 -60. M3.5 K 10.95 +1.65 +1.20 +1.26 211.6 05.9 211.6 05.9 12.58 a -64 -11 +9 CD-44 11909 451 Wo 9593 A x 17 33 36 -49 22.6 0.214 185.2 +6.7 G2 V 9.40 +0.63 J 039.4 12.8 039.4 12.8 7.4 e -3 -23 -12 159462 CD-49 11579 LTT 7002 V(AB) = 8.98 d(m) = 0.8 Wo 9593 B x 17 33 36 -49 22.5 0.221 187.1 G5 10.2 * 039.4 12.8 039.4 12.8 8.2 * e LTT 7003 sep 6.0" 336d (1903), d(R) = 0.8 d(pg) = 0.8 (NLTT) Gl 683 17 33 59 -54 28.2 0.157 195.5 -3.3 A7 V 5.25 +0.20 +0.08 +0.10C 055.1 11.9 055.1 11.9 3.96 d -9 -10 -3 159492 CP-54 8403 PI Ara Gl 683.1 s 17 34 18 -42 32.0 0.403 154.3 +3.8 SB G5 V 7.17 +0.65 +0.18 +0.34C 044.9 07.2 044.9 07.2 5.43 d -5 -22 -36 159656 CD-42 12320 Gl 683.2A p 17 34 26 -37 49.8 0.115 185.3 +2.8 G8 V 6.80 +0.77 J+0.31:J+0.38CJ 019.9 06.8 054. 10. r 5.46 d +1 -9 -5 159704 CD-37 11734 V(AB) = 6.68 d(m) = 2.3 Gl 683.2B p 17 34 26 -37 49.8 0.115 185.3 9.1 * 019.9 06.8 054. 10. r 7.8 * d sep 1.4" 106d (1959) Gl 684 A 17 34 28 +61 54.8 0.568 154.1 -16.3 SB G0 Va 5.34 +0.56 +0.07 +0.24 J 067.9 05.8 067.9 05.8 4.50 b +36 -5 -22 160269 BD+61 1678 3305 LTT 15223 ADS 10660 V(AB) = 5.23 d(m) = 2.89 Gl 684 B 17 34 28 +61 54.8 0.568 154.1 K3 V 8.06 +1.10 +1.00 067.9 05.8 067.9 05.8 7.22 b AB: a = 1.52" 76.00 yr, comp C in LTT 15224 m = 11.2 NN 4013 17 34 52 -29 59.1 0.240 236. k-m 10.94 +1.47 +1.22 060. 29. r 9.8 f LP 920-69 BPM 62452 Gl 685 17 35 02 +61 43.1 0.573 153.3 -16.3 M1 Ve 9.97 +1.47 +1.18 +0.79 071.1 02.8 071.1 02.8 9.23 a +35 -5 -22 G226-066 3306 V062 AC+61:26806 NN 4014 p 17 35 25 -43 06.9 0.291 234.5 -23.8 G5 V 7.24 +0.72 +0.24 +0.24 005.1 08.5 039. 06. r 5.20 d -29 -27 +16 159868 CD-43 11901 LTT 7019 CP-43: 8186 NN 4015 17 35 30 +22 07.8 0.287 175. m 14.08 +1.25 047. 09. r 12.44 d G170-054 Gl 686 17 35 39 +18 36.4 1.361 43.2 -9.5 dM1 W 9.62 +1.53 +1.08 +0.86 128.9 02.6 128.9 02.6 10.17 a -32 +34 -20 BD+18 3421 G170-055 452 V169 AC+18:1453-48 Gl 686.1A 17 35 44 +22 59.1 0.237 220.8 +4.1 dM0 eJ M 10.00 +1.33 +1.24 +0.60 040.6 03.5 040.6 03.5 8.04 b +19 -18 +10 BD+23 3151 V170 Gl 686.1B 17 35 44 +22 59.1 0.237 220.8 +1.3 10.22 +1.38 +1.30 +0.64 040.6 03.5 040.6 03.5 8.26 b +17 -20 +9 NN 4016 17 36 27 +08 03.3 0.240 201. M4 L 12.28 +1.57 +1.00 048. 09. r 10.69 d G139-050 Gl 686.2 17 36 32 -49 23.2 0.209 148.2 +3.7 F2 V 4.77 +0.40 -0.04 +0.25C 042.7 08.5 042.7 08.5 2.92 d -3 -10 -21 160032 CD-49 11616 LAM Ara Gl 687 17 36 42 +68 23.1 1.304 194.8 -23.2 SB? M3.5 V 9.18 +1.50 +1.06 +1.10 212.7 02.0 212.7 02.0 10.82 a +31 -21 -4 BD+68 946 G240-063 450 V322 Gl 688 17 36 48 +03 35.0 0.199 242.5 +22.4 SB K3 V 6.52 +0.96 +0.77 +0.50C 081.0 07.8 081.0 07.8 6.06 c +22 +1 +13 160346 BD+03 3465 GJ 1220 17 36 50 +82 06.8 0.566 329.9 m 14.18 +1.76 070.9 03.4 070.9 03.4 13.43 b G259-015 3297 Gl 689 17 37 02 +71 54.4 0.104 111.4 -23.9 dK8 M 8.62 +1.10 +1.04 +0.43 046.9 11.9 051. 06. r 7.16 c +8 -15 -20 160964 BD+71 850 V323 NN 4017 17 37 14 +68 46.9 0.323 359.9 -14.4 SB F5 V 4.80 +0.43 -0.01 042.1 09.0 051. 05. s 3.34 c -28 -15 -10 160922 BD+68 949 LTT 15238 NN 4018 A 17 37 32 +27 47.5 0.195 179. M1 s 11.12 +1.45 +0.77 045. 06. r 9.39 c LTT 15241 L 1422-16 LP 332-45 NN 4019 B 17 37 33 +27 48.3 0.195 179. M5 s 12.72 +1.53 +1.12 045. 06. r 10.99 c LTT 15242 L 1422-15 LP 332-46 sep 57" 21d NN 4020 A 17 38 07 +61 15.8 0.069 319.1 dK8 M 10.28 +1.23 +0.63 041. 05. r 8.34 c V796 AC+61:27026 NN 4021 B 17 38 08 +61 15.6 14.70 +1.29 041. 05. r 12.76 c GSC 036B-821 sep 19.1" 152d (GSC 1983.29) NN 4022 p 17 39 13 -40 59.9 0.536 194.4 M3 K 12.55 +1.10 021.2 18.8 054. 10. r 11.21 d 3317 LTT 7044 L 414-103 Gl 690 A 17 39 18 +71 21.2 0.338 341.0 -0.8 dM0 W 9.20 +1.10 +1.01 +0.44 053.7 07.3 053.7 07.3 7.85 c -28 -10 +5 BD+71 851 G240-065A V172 comp B optical NN 4023 s 17 39 30 -08 47.3 0.965 240.2 -92. M3 K 13.52 +1.61: +1.22: +1.06 043.1 03.5 043.1 03.5 11.69 b -69 -117 +34 G020-009 3315 LTT 7048 LFT 1367 Wolf 1471 Gl 690.1 s 17 39 39 -16 36.5 0.656 191.4 M2.5 K 13.05 +1.55: +1.03 051.3 05.2 051.3 05.2 11.60 c G154-008 3316 L 774-022 Wo 9599 17 39 45 +65 01.5 0.119 344.9 -8.1 K0 8.37 +0.93 +0.69 041.6 17.0 040. 05. r 6.38 c -13 -10 -2 161284 BD+65 1203 Gl 691 17 40 10 -51 48.6 0.192 183.9 -9.0 G5 V 5.14 +0.70 +0.24 +0.20 077.2 16.3 103. 17. r 5.20 d -12 -4 -2 160691 CD-51 11094 MU Ara Wo 9600 s 17 40 22 -18 29.7 0.535 192.1 M2 K 12.15 +1.43 +0.88 040.2 09.0 040.2 09.0 10.17 d G154-009 3320 LFT 1369 Gl 692 17 40 26 -21 39.6 0.105 245.4 +10.2 F5 V 4.87 +0.47 -0.03 +0.26C 059.8 08.5 059.8 08.5 3.75 d +10 -6 +5 160915 BD-21 4712 NN 4024 17 40 33 +05 48.7 0.240 105. M2 L 10.67 +0.85 064. 11. r 9.70 d G140-009 Gl 692.1 17 41 09 +21 38.4 0.655 191.4 +24.4 K0 V 7.49 +0.77 +0.30 +0.29 047.0 08.5 047.0 08.5 5.85 d +65 -26 +0 161198 BD+21 3198 G170-061 3319 Gl 693 17 42 24 -57 16.9 1.739 219.2 -115. M3.5 10.75 +1.65 +1.21 +1.11 165.5 08.4 165.5 08.4 11.84 b -120 +1 +38 454 L 205-128 Sm 3 Gl 694 17 42 25 +43 24.4 0.636 179.1 -14.5 dM3.5 W 10.47 +1.53 +1.23 +1.02 101.7 03.4 101.7 03.4 10.51 a +24 -19 -12 BD+43 2796 G204-027 3321 V171 NN 4025 17 42 25 -07 59.4 0.338 217. g 11.48 +1.45 +1.24 041. 20. r 9.5 f G020-011 LTT 7069 Wolf 1472 Gl 694.1A 17 42 49 +72 10.4 0.268 177.0 -13.7 F5 IV-V 4.58 +0.42 +0.01 054.9 05.2 054.9 05.2 3.28 c +25 -7 -6 162003 BD+72 804 PSI Dra Gl 694.1B 17 42 51 +72 10.9 0.277 175.1 -10.9 F8 V 5.79 +0.53 +0.02 054.9 05.2 054.9 05.2 4.49 c +25 -4 -5 162004 BD+72 805 NN 4026 17 44 04 +24 39.7 0.600 326.8 m 12.67 +1.51 +1.04 +1.12 069.2 02.4 069.2 02.4 11.87 a G170-062 3324 LTT 15264 L 1350-84 LP 389-32 Gl 694.2 17 44 11 +46 52.4 0.03 225. +5.7 dM1.5 W 10.72 +1.49 +1.27 +0.78 046.4 03.9 046.4 03.9 9.05 b +4 +3 +4 BD+46 2361 V173 Gl 695 A 17 44 30 +27 44.9 0.814 202.9 -16.7 G5 IV 3.42 +0.75 +0.39 +0.24 115.1 05.4 115.1 05.4 3.73 b +17 -33 -5 161797 BD+27 2888 3326 MU Her ADS 10786 sep(AB) 29.9" 241d - 34.0" 247d (1831-1955) Gl 695 B 17 44 28 +27 44.7 0.827 204.2 -13.9 M3 J K 10.35 +1.49 J+1.03 J+1.10 J 115.1 05.4 115.1 05.4 10.66 b +18 -32 -3 3325 V(BC) = 9.80 d(m) = 0.45 , a = 1.360" 43.20 yr Gl 695 C 17 44 28 +27 44.7 0.827 204.2 M4 K ? 10.8 * 115.1 05.4 115.1 05.4 11.1 * b Gl 695.1 17 44 39 -33 59.7 0.603 199.2 +2.4 G8 V 7.19 +0.71 +0.33: +0.24 049.3 06.2 049.3 06.2 5.65 c -2 -57 -12 161612 CD-33 12476 3330 Wo 9605 s 17 45 16 +04 57.5 0.581 248.3 -93.1 K1 V 8.92 +0.84 +0.47 +0.31 039.4 07.2 039.4 07.2 6.90 d -62 -97 +18 161848 BD+04 3509 G140-011 3329 LFT 1377 NN 4027 17 46 13 +36 07.9 0.080 23.1 G5 7.62 054. 06. o 6.28 c 162160 BD+36 2941 NN 4028 s 17 46 45 -56 33.4 1.256 237.6 -6. M2 12.13 +1.46 +1.15 +0.80 039.1 10.1 029. 05. r 9.44 d -53 -171 +100 456 LTT 7100 LFT 1378 L 205-83 Gl 696 17 47 53 -06 02.1 0.153 190.0 -26.2 SB? dM1.5 W 10.17 +1.43 +1.26 +0.69 055.4 19.4 056. 11. r 8.91 d -19 -20 -9 162283 BD-06 4663 V174 NN 4029 17 47 56 +22 42.0 0.780 259.4 m 20.1 P 067.2 06.4 067.2 06.4 19.2 P c 3332 LP 389-18 NN 4030 17 48 12 +23 46.2 0.585 320.6 -80. M4.5-5 13.50 +1.61 +1.19 046.6 04.3 046.6 04.3 11.84 c -84 -51 +16 G183-005 3333 LTT 15285 LFT 1379 LP 389-21 L 1351-12 GJ 1221 17 48 58 +70 52.4 1.651 311.0 DXP9 14.15 +0.40 -0.30 162.8 02.1 162.8 02.1 15.21 a G240-072 455 W372 LP 44-113 NN 4031 17 49 15 +14 46.0 0.269 297. m 13.71 +1.18 043. 08. r 11.88 d G183-006 NN 4032 17 50 48 +16 55.8 0.347 232. m 12.69 +1.13 057. 11. r 11.47 d G183-010 LTT 15290 L 1279-70 LP 448-41 GJ 2133 17 50 48 -34 39.0 0.409 235. k 13.52 +1.64 056. 24. r 12.3 f LTT 7123 Gl 697 17 51 22 +21 20.0 0.089 299.8 -12.5 dK5 M 8.48 +0.95 +0.70 +0.36 055.0 07.4 055.0 07.4 7.18 c -11 -10 +2 BD+21 3245 V797 NN 4033 s 17 51 22 -65 42.6 0.333 165.1 -22.2 F8 V 6.36 +0.45 044.9 17.6 029. 04. r 3.67 d -50 -19 -25 162521 CP-65 3528 CD-65:2389 LTT 7126 GJ 1222 17 51 55 +07 23.5 0.668 241.7 -20. m 13.11 +1.55 +1.11 +1.23 059.8 03.7 059.8 03.7 11.99 b +0 -51 +24 G140-019 3338 Gl 697.1 p 17 52 56 +03 45.7 0.092 278.7 +3. dM0 e M 10.13 +1.34 +1.23 +0.58 038.4 03.6 038.4 03.6 8.05 c +2 -3 +11 BD+03 3531a V324 AC+03:2518-200 Gl 698 p 17 53 34 +18 30.4 0.065 228.4 -28.8 dK8 M 9.22 +1.18 +1.16 +0.48 032.3 11.2 047. 06. r 7.58 c -16 -24 -7 BD+18 3497 V798 NN 4034 17 53 40 +36 11.7 0.118 262.7 G5 7.84 050. 06. o 6.33 c 163621 BD+36 2975 NN 4035 17 53 44 +04 50.4 0.010 8.5 dK8 8.0 * 046.0 12.5 046.0 12.5 6.3 * e 163489 BD+04 3553 AG+04:2218 NN 4036 17 53 48 -41 59.0 0.392 194. M3 S 11.36 +1.51 +0.89t 053. 11. r 9.98 d CP-41 8405 LTT 7138 L 415-82 Sm 5 NN 4037 17 54 48 +58 24.0 0.879 16.4 m 17.98 +1.85 046.5 01.0 046.5 01.0 16.32 a 3339 LP 102-320 NN 4038 17 54 49 +15 47.2 0.279 221. m 12.21 +1.13 071. 14. r 11.47 d G183-013 LTT 15306 L 1279-91 LP 449-6 Gl 698.1 s 17 54 59 -51 37.1 0.24 161. -10.4 K3 V 9.64 +0.92 +0.72 +0.47C 046.3 15.3 023. 04. r 6.45 d -28 -26 -32 163436 CP-51 10685 NN 4039 AB 17 55 10 +24 00.0 0.073 343.6 -28.1 SB G2 V 6.30 +0.64 +0.20 050.0 08.9 050.0 08.9 4.79 d -22 -17 -7 163840 BD+24 3283 BS 6697 SB: P = 2.41 yr, d(m) = 1.5 Gl 699 17 55 23 +04 33.3 10.310 355.8 -111.0 M5 V 9.55 +1.74 +1.29 +1.25 545.3 01.0 545.3 01.0 13.23 a -141 +5 +18 BD+04 3561a G140-024 57 V799 Barnard's star Wo 9608 s 17 55 40 -30 09.6 0.609 165.1 -109. K0 V 9.37 +0.79 +0.35 +0.30 042.9 11.9 019. 03. r 5.76 d -114 -108 -101 CD-30 15026 3347 LTT 7146 LFT 1386 NN 4040 17 56 28 +46 35.2 0.594 357.2 m 11.79 +1.56 +1.41 +1.12 071.3 04.7 071.3 04.7 11.06 b G204-039 3343 Gl 699.1 17 56 40 +82 44.1 3.587 337.3 -154. DA7 14.30 +0.35 -0.52 061.5 03.2 061.5 03.2 13.24 b -157 -300 -40 G259-021 56 W199 LP 9-231 Gl 699.2 17 57 50 -03 41.3 0.160 107.5 -42.9 F3 V 4.62 +0.38 -0.00 +0.22C 046.7 13.6 046.7 13.6 3.0 e -38 -13 -23 164259 BD-03 4217 ZET Ser Gl 700.1A 18 00 21 -08 10.9 0.046 147.1 -38.4 SB dF3 J W 5.24 +0.38 J+0.04 J+0.22CJ 058.3 09.1 058.3 09.1 4.07 d -35 -15 -8 164765 BD-08 4549 TAU Oph ADS 11005 V(AB) = 4.76 d(m) = 0.69 Gl 700.1B 18 00 21 -08 10.9 0.046 147.1 -35.1 5.93* 058.3 09.1 058.3 09.1 4.76* d -32 -13 -7 164764 a = 1.494" P = 280.03 yr Gl 700.1C 18 00 27 -08 11.9 0.05 147. -14.0 9.4 * 058.3 09.1 058.3 09.1 8.2 * d -12 -6 -5 sep(AB-C) 100.3" 127d; discrepant photometry Gl 700.2 18 00 29 +26 19.2 0.715 148.1 +20.7 K0 V 6.99 +0.80 +0.47 +0.24 060.4 13.3 053. 08. r 5.61 d +54 +6 -40 164922 BD+26 3151 G182-035 3353 GJ 1223 18 01 03 +37 31.8 1.158 171.9 m 14.85 +1.77 +1.47 083.5 04.0 083.5 04.0 14.46 b G182-036 457 Gl 701 18 02 28 -03 01.9 0.644 121.1 +32.5 dM2 W 9.38 +1.52 +1.20 +0.85 125.9 04.7 125.9 04.7 9.88 a +33 +14 -19 165222 BD-03 4233 G020-022 3356 V176 NN 4041 18 02 32 +35 57.4 0.257 170. M0 s 10.83 +1.48 +0.82 056. 10. r 9.57 d BD+35 3145 G182-037 Gl 702 A 18 02 56 +02 30.6 1.135 167.1 -6.9 SB K0 Ve 4.21 +0.86 J+0.51 J+0.26 199.0 03.6 199.0 03.6 5.70 a +7 -20 -19 165341 +02 3482 458 ADS 11046 V(AB) = 4.02 d(m) = 1.80 Gl 702 B 18 02 56 +02 30.6 1.135 167.1 -10.0 SB K5 Ve 6.00 +1.15 +0.45 199.0 03.6 199.0 03.6 7.49 a +5 -21 -19 459 a = 4.545" P = 88.13 yr Gl 702.1 18 03 01 -36 01.5 0.110 81.1 +13.2 G5 V 5.95 +0.62 +0.07 +0.20 057.7 06.8 057.7 06.8 4.76 c +13 +5 -9 165185 CD-36 12214 Gl 702.2 18 03 09 +04 39.4 0.314 182.5 -120.4 G2 V 6.80 +0.62 +0.04 +0.22 050.0 02.7 050.0 02.7 5.29 b -83 -84 -38 165401 BD+04 3589 GJ 1224 18 04 42 -15 58.0 0.664 238.2 m 13.63 +1.79 +1.42 132.7 03.7 132.7 03.7 14.24 a G154-044 3359 Wo 9615 A 18 04 59 +09 33.3 0.102 322.4 -23.9 A4 V 3.73 +0.12 +0.10 -0.04 J 048.6 07.5 048.6 07.5 2.16 d -23 -12 +3 165777 BD+09 3564 BDS 8359 Wo 9615 B 18 04 59 +09 33.3 0.102 322.4 14. * +0.40 048.6 07.5 048.6 07.5 12. * e sep 25.4" 299d (1934) Gl 703 x 18 05 04 +15 56.5 0.210 198.4 +25.5 G6 K 8.68 +0.65 +0.16 071.7 11.9 071.7 11.9 7.96 d +28 +7 +6 BD+15 3364 Gl 704 A 18 05 08 +30 33.2 0.116 311.7 +1.6 SB? F7 V 5.09 +0.50 -0.10: 059.2 03.9 059.2 03.9 3.95 b -4 +0 +9 165908 BD+30 3128 Gl 704 B 18 05 08 +30 33.2 0.116 311.7 K5 V 8.45 +1.10 +1.0 : 059.2 03.9 059.2 03.9 7.31 b Gl 705.1 18 05 47 -62 00.9 0.222 339.4 +29.7 SB G3 IV-V 5.48 +0.58 +0.09 +0.32C 051.6 10.2 051.6 10.2 4.04 d +36 -2 +3 165499 CP-62 5797 IOT Pav NN 4042 p 18 06 45 -12 02.8 0.208 171.9 -2.2 K7 V U 10.47 +1.38 +1.17 +0.66 018.1 10.4 042. 08. r 8.59 d +4 -18 -14 BD-12 4935 G154-047 V177 LTT 7218 L 847-61 dM2 Gl 705.2 s 18 06 48 +52 47.4 0.403 261. K5 K 12.51 +1.50 +0.73 050.8 11.9 050.8 11.9 11.0 e G227-024 Wolf 1409 Gl 706 18 07 58 +38 27.2 0.557 215.3 -19.1 K2 V 6.40 +0.87 +0.59 +0.34 088.7 02.5 088.7 02.5 6.14 a +17 -31 +1 166620 BD+38 3095 G205-005 3363 Gl 707 18 08 44 -43 27.1 0.442 162.8 -2.0 K7 Ve 8.37 +1.31 +1.22 +0.54 068.0 09.1 068.0 09.1 7.53 c -10 -21 -21 166348 CD-43 12343 U446 Sm 11 NN 4043 18 09 42 +49 57.8 0.228 185. K7 9.96 +1.29 +1.25 041. 10. r 8.0 e BD+49 2743 G228-020 LTT 15383 Wolf 1414 NN 4044 18 11 05 +26 01.0 0.210 100. m 13.32 +1.28 076. 13. r 12.72 d LP 390-16 NN 4045 18 12 05 -77 03.6 0.626 202.2 m 14.1 * +1.26 049. 09. r 12.6 * d 3378 LTT 7245 L 44-59 Gl 708 p 18 13 07 +18 28.9 0.11 34. +1.7 dM1 W 10.07 +1.33 +1.31 +0.56 038.4 03.9 038.4 03.9 7.99 c -8 +11 -2 348282 BD+18 3606 V178 NN 4046 18 13 33 +18 55.5 0.440 186. M0 K 10.84 +1.50 +0.77 048. 10. r 9.25 d BD+18 3609? G183-033 LTT 15403 Wolf 835 Gl 708.1 18 13 36 +64 22.8 0.344 84.7 -36.1 F5 V 5.03 +0.38 -0.04 050.3 08.8 050.3 08.8 3.54 d -5 -17 -45 168151 BD+64 1252 Gl 708.2 18 13 45 +13 54.1 0.501 170.3 +11.0 dM0 W 10.20 +1.44 +1.24 +0.69 053.2 04.2 053.2 04.2 8.83 b +37 -16 -22 BD+13 3578 G140-049 3373 V179 Gl 708.3 18 13 48 +01 30.8 0.771 211.2 M5 12.52 +1.61 +1.32 +1.08 063.0 05.2 063.0 05.2 11.52 b G021-007 3374 L 1064-075 Gl 708.4 18 14 06 +45 11.6 0.138 217.2 -64.9 G2 V 6.29 +0.62 +0.12 046.0 10.2 049. 08. r 4.74 d -6 -62 -23 168009 BD+45 2684 Gl 709 18 15 05 +45 32.0 0.300 354. -36.8 dM0 M 10.28 +1.47 +1.20 +0.75 046.4 05.5 046.4 05.5 8.61 c -38 -28 -6 BD+45 2688 G204-055 V801 NN 4047 s 18 15 48 +26 39.0 0.343 72.5 -49.0 K3 K 9.59 +1.02 +0.84 +0.41 043.8 04.8 043.8 04.8 7.80 c -41 -16 -43 335828 BD+26 3215 G183-037 V180 LTT 15414 Wo 9624 s 18 16 00 -45 43.1 0.154 208.5 +25. F7 V 6.85 +0.54 +0.07 043.2 08.5 022. 03. s 3.56 c +18 -37 -4 167954 CD-45 12390 NN 4048 A 18 16 25 +38 46.2 1.091 197.8 m 11.87 +1.58 +1.07 088.0 03.6 088.0 03.6 11.59 a G204-058 462 NN 4049 B 18 16 24 +38 46.2 1.091 197.8 m 13.53 +1.77 +1.24 088.0 03.6 088.0 03.6 13.25 a G204-057 461 sep 8.5" 290d NN 4050 q 18 16 29 -45 56.5 0.153 172.6 -18. G5 V 7.32 +0.76 028.8 11.9 043. 06. r 5.49 d -22 -10 -4 168060 CD-45 12402 CP-45:9234 NN 4051 s 18 16 40 -05 47.6 0.530 137.2 M2.5 K 12.57 +1.45 +0.90 040.2 10.7 033. 07. r 10.16 d G021-009 3377 LTT 7282 LP 689-1 L 920-7 Gl 710 18 17 15 -01 57.7 0.014 249.7 -13.3 dM1 W 9.66 +1.37 +1.22 +0.61 071.7 09.0 071.7 09.0 8.94 c -11 -7 -1 168442 BD-01 3474 V063 NN 4052 q 18 17 19 -09 36.9 0.267 201.5 G8 V 6.92 +0.70 +0.31 031.8 11.9 048. 08. r 5.33 d 168443 BD- 9 4692 G155-011 LTT 7289 GJ 1225 18 17 33 +68 32.8 1.740 203.5 m 15.39 +1.88 +1.34 054.3 07.8 054.3 07.8 14.06 d G260-001 460 GJ 1226 18 18 24 -01 03.8 1.082 207.9 +50. M3.5 K 12.71 +1.66 +1.12 +1.14 062. 15. r 11.7 e +83 -49 +6 G021-010 463 Gl 711 18 18 43 -02 54.8 0.890 218.4 +6.9 K0 III-IV 3.26 +0.94 +0.66 +0.33 054.9 09.7 054.9 09.7 1.96 d +39 -65 +15 168723 BD-02 4599 3381 ETA Ser NN 4053 18 18 51 +66 10.5 0.623 131.3 m 13.48 +1.83 +1.35 137.3 05.3 137.3 05.3 14.17 a G258-033 3376 LP 71-165 Gl 712 18 19 44 +06 18.9 1.158 272.7 -48. M3 K 12.58 +1.48 +1.07 +1.11 069.1 03.2 069.1 03.2 11.78 b -30 -61 +64 G141-004 464 Ross 136 NN 4054 18 20 45 +60 59.9 0.688 172.2 DC:9 15.65 +0.97 +0.98 078.1 04.1 078.1 04.1 15.11 b G227-028 3380 W LP 103-294 GJ 2135 18 21 15 -13 09.9 0.637 195.9 DA7 15.60 +0.42 -0.60 050. 10. w 14.09 d G155-015 3384 W176 WD1821-131 NN 4055 18 21 31 +28 08.6 0.190 201. M3 K 12.49 +1.61 +1.19 072. 17. r 11.8 e LTT 15435 Ross 708 NN 4056 18 21 33 +01 39.6 0.269 139. g 11.84 +1.56 +1.29 072. 34. r 11.1 f G021-013 LTT 15437 L 1064-69 LP 630-11 Gl 713 AB 18 21 57 +72 42.7 0.632 124.4 +32.0 SB F7 V 3.57 +0.49 -0.06 +0.20 132.6 03.7 132.6 03.7 4.18 a +3 +39 -2 170153 BD+72 839 3379 CHI Dra GJ 1227 18 22 05 +62 02.3 1.544 217.1 m 13.41 +1.76 +1.36 121.3 01.6 121.3 01.6 13.83 a G227-029 465 NN 4057 18 23 01 +24 36.6 0.429 190. M0 K 10.79 +0.73 045. 06. r 9.06 c 336196 BD+24 3411 G183-041 LTT 15449 NN 4058 18 23 51 +38 20.1 0.712 185.8 M1 11.27 +1.48 +1.19 +0.76 039. 06. r 9.23 d G205-020 3385 NN 4059 18 24 04 +11 19.3 0.279 183. m 12.85 +1.12 052. 10. r 11.43 d G141-010 LTT 15455 L 1208-222 LP 510-10 Gl 713.1 18 24 53 -25 27.1 0.190 193.1 -43.2 K1+ IIIb 2.82 +1.04 +0.89 +0.50C 059.7 09.7 059.7 09.7 1.70 d -41 -20 +1 169916 CD-25 13149 LAM Sgr Gl 714 18 25 51 -58 18.1 0.43 184. -3.4 M1 S 9.85 +1.48 +1.20 +0.95C 069.2 11.9 069.2 11.9 9.05 d -17 -24 -6 CP-58 7399 Sm 14 Gl 715 18 27 16 -01 51.0 0.256 139.5 -54.3 dK5 W 8.05 +1.10 +1.06 +0.38 050.1 06.5 050.1 06.5 6.55 c -42 -33 -26 170493 BD-01 3500 G021-017 U456 Gl 716 18 28 23 -18 56.5 0.239 215.2 -41.6 K3 V 6.81 +0.85 +0.56 +0.30 083.7 15.4 071. 11. r 6.07 d -36 -25 +5 170657 BD-18 4986 GJ 1228 18 29 22 +54 45.0 0.372 318. DXP8 15.50 +0.49 -0.44 067.2 05.6 067.2 05.6 14.64 b G227-035 W374 NN 4060 18 29 24 -62 47.0 K7 S 9.52 +1.45 +0.67 070. 11. r 8.75 d CP-62 5888 Sm 15 NN 4061 p 18 29 49 +79 23.0 0.355 3.9 -27. K5 K 9.28 +1.18 +0.47 032.0 13.6 045. 07. r 7.55 d -27 -35 -14 BD+79 590 G259-029 V183 LTT 15472 GJ 1229 18 29 52 +13 41.8 0.164 45.1 -45.3 G8 V 7.20 +0.68 +0.24 040. 06. r 5.21 d -44 -16 -14 171067 BD+13 3677 NN 4062 18 30 22 +40 38.5 0.419 348. m 11.99 +1.13 079. 16. r 11.48 d G205-028 Gl 717 18 30 42 -11 40.3 0.406 232.5 -83.7 K7 V U 10.00 +1.28 +1.20 +0.53 048.3 04.7 048.3 04.7 8.42 c -65 -63 +19 BD-11 4672 G155-023 V181 Gl 718 18 31 12 +22 16.9 0.510 200.9 +38.8 K4 V 8.89 +1.12 +1.05 +0.42 049.7 09.2 045. 07. r 7.16 d +66 -4 +6 171314 BD+22 3406 G183-044 3392 V803 V774 Her Gl 719 18 32 45 +51 41.0 0.376 151.0 -24.5 SB K6 Ve 8.1 v +1.22 +1.04: 058.0 05.6 058.0 05.6 6.9 v c +20 -17 -29 234677 BD+51 2402 G227-036 BY DRA Wo 9629 x 18 32 50 -44 20.7 0.220 225. -10.6 G0 10.23 +0.62 +0.00 +0.36C 040.3 11.9 040.3 11.9 8.3 e -11 -22 +12 CD-44 12736 LTT 7379 NN 4063 18 32 58 +40 05.1 0.223 168. M3 p s 11.42 +1.42 +1.21 124. 45. r 11.9 f LP 229-17 NN 4064 18 33 41 +41 26.8 0.387 95. M2 L 11.78 +0.90 044. 08. r 10.00 d G205-029 Gl 720 A 18 33 50 +45 41.8 0.566 053.0 -31.2 dM2 W 9.85 +1.42 +1.15 +0.73 067.8 02.1 067.8 02.1 9.01 a -37 -11 -33 BD+45 2743 G205-030 3394 V182 LFT 1421 Gl 720 B 18 33 59 +45 42.9 0.566 053.0 m 13.02 +1.60 +1.18 067.8 02.1 067.8 02.1 12.18 a G205-032 3395 VB 9 LTT 18475 NN 4065 18 34 01 +13 33.7 0.347 34. M3.5 K 12.46 +1.23 089. 16. r 12.21 d G141-021 LTT 15483 Ross 149 Wo 9630 s 18 34 07 -25 42.6 0.333 148.5 -24.3 G5 V 7.44 +0.69 +0.21 041.4 07.5 041.4 07.5 5.53 d -26 -24 -28 171665 CD-25 13291 LTT 7388 Gl 721 18 35 15 +38 44.2 0.348 35.2 -12.1 A0 V 0.03 +0.00 -0.01 -0.09 129.6 05.5 129.6 05.5 0.59 a -15 -5 -7 172167 BD+38 3238 ALF Lyr GJ 2138 18 35 54 -14 31.7 0.544 166.9 dM1 11.26 +1.56 +1.23 +0.98 072. 14. r 10.55 d G155-029 3398 Gl 722 18 35 54 -21 05.7 0.171 206.0 +38.6 G5 V 5.86 +0.68 +0.14 +0.24 071.8 05.0 071.8 05.0 5.14 b +40 -3 -5 172051 BD-21 5081 NN 4066 x 18 36 26 +20 35.1 0.215 189.8 +29. F9 9.34 +0.65 +0.08 042.7 10.1 042.7 10.1 7.5 e +37 +8 +0 349063 BD+20 3876 LTT 15494 Gl 722.1 s 18 36 28 +42 37.2 0.289 78.0 +33.1 dK0 e W 8.34 +0.82 +0.39 043.9 10.3 032. 05. r 5.87 d -7 +49 -23 172393 BD+42 3123 G205-033 Gl 723 18 37 32 -10 30.3 0.539 193.9 M0.5 K 11.49 +1.55 +0.86 066.0 06.4 066.0 06.4 10.59 c G155-030 3400 Wolf 1466 Gl 724 18 38 08 -13 25.1 0.671 186.7 M0 K 10.63 +1.50 +1.21 +0.84 056.2 06.1 056.2 06.1 9.38 c BD-13 5069 G155-033 3403 NN 4067 18 38 09 +33 21.8 0.301 3. m 13.12 +1.14 049. 10. r 11.57 d G206-037 LTT 15504 L 1498-10 LP 280-9 GJ 1230 A 18 39 04 +24 44.2 0.501 085.3 k-m 12.4 * +1.71 J+1.19 J+1.38 J 130.2 28.3 136. 22. r 13.1 * d G184-019 3405 GJ 1230 B 18 39 04 +24 44.3 0.501 085.3 m 14. : 130.2 28.3 136. 22. r 15. : e 3404 NN 4068 18 39 36 +80 02.5 0.237 035. M4 e 13.22 +1.72 +1.16 055. 13. r 11.9 e LP 25-02 Gl 724.1 x 18 39 48 -50 12.8 0.183 202.5 -32.5 G5 V 9.32 +0.68 +0.14 +0.37C 052.7 08.5 052.7 08.5 7.93 d -34 -8 +11 172582 CP-50 10804 NN 4069 18 39 59 +39 39.4 0.309 236. m 13.42 +1.25 064. 12. r 12.45 d G205-035 NN 4070 18 40 07 +31 46.8 0.307 272. M3 K 11.27 +1.04 085. 15. r 10.92 d G206-040 LTT 15513 Ross 145 GJ 2139 18 40 12 -11 11.7 0.354 224. +53. DA5 14.18 +0.15 -0.61 053. 06. w 12.80 c +19 -25 +9 G155-034 W200 LTT 7421 NN 4071 18 40 27 +13 51.0 0.313 352. m 12.81 +1.28 096. 16. r 12.72 d G141-029 LTT 15516 L 1209-6 LP 510-15 NN 4072 18 40 57 +04 17.3 0.14 302. +46. DA6 14.92 +0.14 -0.59 040.4 03.4 040.4 03.4 12.95 b -1 +1 +16 W225 GD 215 NN 4073 18 41 45 +40 36.8 0.619 348.7 m 18.23 070.8 00.8 070.8 00.8 17.48 a 3406 LP 229-30 Gl 725 A 18 42 12 +59 33.3 2.273 323.3 -0.8 dM4 W 8.90 +1.52 +1.11 +1.06 286.1 01.8 286.1 01.8 11.18 a -24 -12 +26 173739 BD+59 1915 G227-046 58 V184 Gl 725 B 18 42 13 +59 33.0 2.272 323.1 +1.2 VAR dM5 W 9.71 +1.59 +1.14 +1.15 286.1 01.8 286.1 01.8 11.99 a -24 -10 +27 173740 G227-047 59 sep 17" 155d NN 4074 18 42 48 -28 59.0 0.435 137. k 12.65 +1.53 +1.12 041. 19. r 10.7 f LTT 7434 L 633-165 LP 923-15 Gl 725.1 18 43 05 +43 46.8 0.107 266.8 -44.6 K0 H 7.54 +0.84 +0.58 050.2 10.2 050. 06. r 6.03 c -9 -44 -6 173701 BD+43 3058 Gl 725.2 18 43 31 +20 29.8 0.335 181.9 +22.3 F6 V 4.19 +0.46 +0.01 +0.17t 050.1 05.3 050.1 05.3 2.69 c +38 +0 -8 173667 BD+20 3926 NN 4075 18 44 11 -61 40.1 0.544 196.7 m 12.8 * +1.05 042. 08. r 10.9 * d 3411 LTT 7442 L 158-46 Gl 725.3 x 18 44 39 -50 45.4 0.221 177.5 -5.5 G3 V 8.70 +0.65 +0.14 +0.35C 053.8 06.8 053.8 06.8 7.35 c -12 -16 -5 173560 CP-50 10835 NN 4076 18 44 47 +52 24.1 0.843 298.4 M1 15.11 +1.85 050.1 02.5 050.1 02.5 13.61 b 3409 LP 141-11 Gl 726 18 44 50 -03 41.5 0.275 206.1 +16.0 K7 K 8.81 +1.29 +1.21 +0.54 068.3 14.9 071. 12. r 8.07 d +23 -8 -1 173818 BD-03 4380 G021-024 V805 NN 4077 18 45 11 -14 38.1 0.337 223. k 12.13 +1.51 +1.18 045. 22. r 10.4 f G155-042 LTT 7452 L 850-59 LP 751-15 NN 4078 18 45 22 -57 29.0 0.675 249.7 m 12.7 * +1.25 090. 16. r 12.5 * d 3413 LTT 7454 L 207-41 NN 4079 18 45 48 -62 07. 0.141 48. M3 S 10.72 +1.46 +0.82t 058. 11. r 9.54 d Sm 22 BPM 11774 = Sm 21 Smethells, IAU Coll. 76 Gl 727 18 46 07 +10 41.7 0.447 163.9 -8.4 dK4 W 7.97 +1.07 +0.98 +0.40 064.1 05.1 064.1 05.1 7.00 b +12 -22 -23 174080 BD+10 3665 G141-037 V325 Gl 728 18 46 40 +17 23.2 0.593 224.2 -21.3 dM1.5 W 9.22 +1.28 +1.22 +0.60 064.3 05.3 064.3 05.3 8.26 b +16 -45 +10 229590 BD+17 3729 G184-029 3412 V185 NN 4080 18 46 42 -20 23.0 0.037 8.6 -17.7 SB K2 III 5.24 +1.41 +2.42C 042.8 15.3 042.8 15.3 3.4 f -18 -1 +4 174116 BD-20 5277 Gl 729 18 46 45 -23 53.5 0.720 106.7 -12.1 dM4.5e W 10.46 +1.72 +1.3 ? +1.30 341.1 08.1 341.1 08.1 13.12 a -14 -1 -8 3414 AC-24:2833-183 Gl 730 18 47 31 +03 02.1 0.473 203. -1.4 dM1.5 W 10.74 +1.47 +0.79 058.9 06.4 058.9 06.4 9.59 c +21 -32 -3 G022-003 V064 AC+03:2528-176 NN 4081 18 47 35 -60 49.6 0.698 298.9 m 13.4 * +1.18 049. 10. r 11.9 * d 3418 LTT 7469 L 159-20 NN 4082 p 18 48 35 -57 09.8 0.805 196.9 M2 S 12.14 +1.47 +1.13 +0.97 030.6 10.7 045. 09. r 10.41 d 3421 LTT 7481 L 207-33 Sm 23 NN 4083 18 49 23 +47 54.8 0.277 115. m 12.53 +1.11 058. 12. r 11.35 d G205-038 NN 4084 18 49 37 +24 23.8 0.374 263. m 12.76 +1.08 047. 10. r 11.12 d G184-036 LTT 15549 L 1354-11 LP 391-10 Gl 731 18 49 38 +16 31.8 0.537 207.9 -14.9 dM1.5 W 10.15 +1.47 +1.14 +0.73 074.8 03.3 074.8 03.3 9.52 a +15 -34 -1 229793 G184-035 3417 V186 AC+16:247-80 NN 4085 A 18 50 01 -54 25.1 0.208 108.8 K3 V 9.18 +1.13 +1.02 +0.44 040. 06. r 7.19 d 174564 CD-54 8050 CP-54:9142 LTT 7488 L 273-102 NN 4086 B 18 50 01 -54 25.1 0.208 108.8 m 12.3 P 040. 06. r 10.3 P d LTT 7489 L 273-101 sep 11" 357d Gl 732 A s 18 50 15 -38 39.8 1.011 161.1 sdG0 K 12.70 +1.53 +1.12 +1.23 075.2 12.1 075.2 12.1 12.08 d 469 L 489-58 Gl 732 B s 18 50 15 -38 39.8 1.011 162. 16. * 075.2 12.1 075.2 12.1 15. * e sep 12" (LHS, but not in NLTT) Gl 732.1 18 50 28 +52 54.6 0.259 354.6 -1.6 SB? G9 IVa 5.50 +0.84 +0.51 041.5 05.5 041.5 05.5 3.59 c -28 -2 +10 175225 BD+52 2294 NN 4087 p 18 51 54 -37 33.5 0.378 159.6 -24.6 K1 V 8.11 +0.88 +0.47 +0.34 036.9 08.5 041. 06. r 6.17 d -33 -32 -21 175073 CD-37 12969 LTT 7499 Wo 9637 18 52 06 -22 44.1 0.105 103.7 +104.2 SB K3 IIIa: 4.99 +1.33 +1.51 +0.48 040.0 13.6 040.0 13.6 3.0 e +97 +25 -32 175190 BD-22 4915 Gl 734 A 18 52 33 +10 54.6 0.12 95. -26.8 VAR dM0 W 9.44 +1.36 +1.30 +0.66 J 062.1 07.3 062.1 07.3 8.41 c -21 -15 -10 230017 BD+10 3724 V187 V(AB) = 9.37 d(m) = 2.5 : Gl 734 B 18 52 33 +10 54.6 0.12 95. 12.3 * 062.1 07.3 062.1 07.3 11.3 * c sep 5.2" 21d (1961) Gl 735 18 53 03 +08 20.3 0.13 129. -13.5 SB dM3 e W 10.11 +1.53 +1.1 : +1.08 088.6 04.3 088.6 04.3 9.85 b -9 -10 -7 V188 AC+08:142-393 Gl 736 18 53 12 +04 12.1 0.099 181.7 +20.1 G8 V 8.03 +0.90 +0.56 +0.33 068.8 20.5 042. 06. r 6.15 d +22 +4 -4 175541 BD+04 3911 Gl 737 A 18 53 21 -56 03.1 0.412 186.2 -13.5 K7 V 9.45 +1.42 J+1.1 :J+0.75 J 073.1 08.0 073.1 08.0 8.77 c -22 -20 +1 175224 CP-56 9037 U463 Sm 24 V(AB) = 8.96 d(m) = 0.55 Gl 737 B 18 53 21 -56 03.1 0.412 186.2 -15.8 K5 V 10.00 +0.84 073.1 08.0 073.1 08.0 9.32 c -24 -19 +2 sep 5.0" 295d - 3.6" 319d (1892-1959) Wo 9638 18 53 47 +23 29.7 0.314 155.4 +10.3 SB K2 K 8.09 +0.91 +0.55 040.9 07.2 040.9 07.2 6.15 d +27 -1 -26 175742 BD+23 3500 LTT 15564 V775 Her NN 4088 18 54 45 +07 30.5 0.182 227. m 11.20 +0.83 048. 08. r 9.61 d LP 571-80 NN 4089 18 55 00 +46 18.6 0.323 13. m 13.95 +1.23 047. 09. r 12.31 d G205-047 Gl 738 A 18 55 09 +32 50.2 0.224 135.3 -45.8 SB F9 V 5.34 +0.59 J+0.03 J 056.5 04.2 056.5 04.2 4.10 b -12 -39 -28 176051 BD+32 3267 ADS 11871 V(AB) = 5.22 d(m) = 2.32 Gl 738 B 18 55 09 +32 50.2 0.224 135.3 K1 V 7.7 * 056.5 04.2 056.5 04.2 6.5 * b a = 1.24" P = 61.203 yr NN 4090 A p 18 55 13 +54 28.1 0.320 178. dM0 M 10.44 +1.38 +1.33 +0.62 020.0 07.7 042. 05. r 8.56 c G229-018 V806 NN 4091 B p 18 55 15 +54 26.1 0.320 178. m 12.04 +1.56 +0.93 020.0 07.7 042. 05. r 10.16 c G229-019 sep 120" 169d Gl 739 18 55 20 -48 20.2 0.509 163.0 M3 K 11.15 +1.46 +1.02 087.1 05.6 087.1 05.6 10.85 b CD-48 12818 3423 CFS 18398 Sm 26 Gl 740 18 55 34 +05 51.4 1.245 189.6 +10.4 M2 V 9.22 +1.46 +1.17 +0.76 094.6 06.4 094.6 06.4 9.10 b +46 -39 -19 176029 BD+05 3993 G022-010 470 V190 Wo 9639 s 18 56 55 +30 06.5 0.200 15.4 -39.5 G2 V 6.79 +0.58 +0.00 040.6 06.6 035. 04. r 4.51 c -43 -22 -4 176377 BD+29 3423 LTT 15573 NN 4092 18 57 13 +07 55.1 0.408 115. M2 L 10.86 +1.42 +1.26 +0.73 043. 07. r 9.03 d BD+ 7 3922 G141-052 LTT 15574 L 1138-44 Gl 740.1 s 19 00 10 -00 47.0 0.130 198.1 -7.2 dG5 W 8.43 +0.73 +0.29 +0.39C 054.3 10.2 054.3 10.2 7.10 d +0 -13 -1 176982 BD-00 3631 Gl 741 s 19 00 29 -13 38.1 0.780 225.8 M4 : K 14.85v +1.56v +1.29v 053.1 03.9 053.1 03.9 13.48v b 3428 L 850-062 Gl 742 19 00 39 +70 35.1 0.536 009.6 DXP5 13.20 +0.05 -0.86 074.8 03.7 074.8 03.7 12.57 b G260-015 3424 W129 LFT 1446 AC+70:8247 Wo 9641 19 01 41 -21 49.0 0.100 127.1 +27.2 K0 III 3.77 +1.01 +0.85 043.1 11.9 043.1 11.9 1.9 e +24 +4 -16 177241 BD-21 5237 NN 4093 19 02 54 +70 21.0 0.205 7. m 12.54 +1.01 042. 08. r 10.66 d LP 045-128 NN 4094 AB 19 02 55 +63 55.0 M0 s 10.6 +1.42 J+1.24 J+0.69 J 040. 06. r 8.6 d Steph 1676 sep 3" 70d d(R) = 3. Weis; V(AB) = 10.55 d(m) = 3.5 : Gl 743 s 19 03 00 +22 59.8 0.325 43.2 -16.9 G9 K 8.55 +0.81 +0.42 057.1 13.6 028. 04. r 5.79 d -52 +18 -18 177745 BD+22 3579 G184-047 Gl 743.1A 19 03 02 -37 08.2 0.289 160.9 -53.2 F8 V 4.87 +0.52 J+0.00 J+0.29CJ 052.8 08.4 068. 08. r 4.03 c -54 -16 +5 177474 CD-37 13048 GAM Cra V(AB) = 4.19 d(m) = 0.13 Gl 743.1B 19 03 02 -37 08.2 0.289 160.9 -51.3 F8 V 5.00* 052.8 08.4 068. 08. r 4.16* c -53 -16 +4 177475 a = 1.907" P = 120.42 yr Heintz 1963 NN 4095 AB 19 03 06 +13 47.5 0.10 185. -25. SB A0 Vn 2.99 +0.01 -0.01 -0.07 039.8 10.7 039.8 10.7 1.0 e -9 -26 -6 177724 BD+13 3899 BS 7235 ADS 12026 sep 158.6" d(m) = 8.4 Gl 743.2 q 19 03 18 +25 50.7 0.059 225.6 -71.5 dK2 W 7.22 +1.03 +1.10 020.0 02.9 020.0 02.9 3.73 d -27 -67 -6 177830 BD+25 3719 Gl 744 19 03 30 -37 53.0 0.417 208.3 +58.5 G5 IV 6.15 +0.71 +0.27 +0.35C 061.2 06.5 061.2 06.5 5.08 c +56 -33 -15 177565 CD-37 13049 Wo 9643 19 03 49 -27 44.7 0.255 192.0 +45.4 SB K1 III 3.32 +1.19 +1.15 043.1 10.2 043.1 10.2 1.5 e +46 -20 -17 177716 CD-27 13564 LTT 7571 Gl 745 A 19 04 58 +20 48.8 0.578 234.7 +32.1 sdM2 W 10.76 +1.58 +0.93 112.2 03.5 112.2 03.5 11.01 a +36 +12 +15 G184-048 3432 AC+20:1463-148 Gl 745 B 19 05 05 +20 48.1 0.578 234.7 +31.7 sdM2 W 10.75 +1.58 +0.93 112.2 03.5 112.2 03.5 11.00 a +35 +11 +15 349726 G184-049 3433 AC+20:1463-154 NN 4096 19 05 18 -42 30.4 0.127 166.4 -32. K1 V 7.88 +0.86 +0.53 043. 07. r 6.05 d -33 -9 +4 177996 CD-42 13922 CP-42:8610 NN 4097 19 05 19 -31 03.1 0.096 134.0 K0 V 7.82 039. 05. o 5.78 c 178076 CD-31 16381 $ mod = 2.03 Olsen Gl 746 19 05 43 +16 46.6 0.310 169.0 +14.8 SB G5 V 6.07 +0.70 +0.27 059.5 08.5 059.5 08.5 4.94 d +25 +0 -14 178428 BD+16 3752 Gl 747 A 19 05 45 +32 27.0 1.635 048.9 -47.0 M3.5 J K 11.86 +1.70 J +1.14 J 122.6 01.9 122.6 01.9 12.30 a -70 -12 -34 BD+32 3326 G207-016 471 AC+32:54804 ADS 12061C V(AB) = 11.25 d(m) = 0.3 Gl 747 B 19 05 45 +32 27.0 1.635 048.9 M5 K ? 12.16* 122.6 01.9 122.6 01.9 12.60* a sep < 0.35" GJ 1231 19 06 15 +26 30.6 0.539 202.6 m 15.16 +1.91 +1.38 058.0 03.8 058.0 03.8 13.98 b G207-018 3434 Gl 747.1 19 06 29 -14 49.4 0.549 158.5 M3 K 12.02 +1.50 +1.08 +1.26C 046.9 09.6 046.9 09.6 10.38 d 3437 Ross 727 NN 4098 19 06 37 +32 12.1 0.311 225. m 11.80 +1.11 081. 16. r 11.34 d G207-019 LTT 15607 L 1499-34 LP 336-4 Gl 747.2 p 19 07 04 +33 58.8 0.101 306.6 +11.2 SB? dK6 W 9.43 +1.24 +1.17 +0.50 035.0 11.6 046. 08. r 7.74 d +2 +9 +12 BD+33 3339 V192 Gl 747.3 19 07 10 -47 14.0 0.632 183.9 +2.0 K7 V 9.36 +1.32 +1.26 +0.58 047.5 12.7 059. 11. r 8.21 d -11 -48 -11 178445 CP-47 9196 3439 U465 Sm 29 CD-47:12773 NN 4099 19 07 39 +39 07.5 M0 s 11.33 +1.53 +1.21 +0.89 055. 10. r 10.03 d Steph 1680 GJ 1232 19 07 40 +17 35.5 0.740 227.0 -12. k-m 13.52 +1.85 +1.44 +1.35 093.6 02.8 093.6 02.8 13.38 a +19 -32 +12 G142-011 3438 NN 4100 19 08 07 +01 27.4 0.260 220. g 12.18 +1.50 +1.22 041. 20. r 10.2 f G022-017 LTT 15613 NN 4101 s 19 08 14 +79 40.4 0.198 355.6 -32.2 dK8 M 9.72 +1.10 +0.96 +0.46 046.3 15.4 033. 04. r 7.31 c -14 -40 -8 BD+79 615 V807 Gl 747.4 s 19 08 19 -55 57.0 0.33 238. k-m 11.31 +1.45 +1.11 +0.99C 054.0 08.5 054.0 08.5 9.97 d CD-56 7638 Sm 31 NN 4102 19 09 13 -82 37.8 1.261 165.0 M3.5 12.7 * +1.16 063. 13. r 11.7 * d 475 LTT 7606 L 22-69 NN 4103 19 09 18 +32 35.0 0.244 225. m 10.48 +0.70 048. 07. r 8.89 d LP 336-6 NN 4104 19 09 32 -39 07.2 0.503 106.3 M3 K 12.7 * +1.11 052. 10. r 11.3 * d 3443 LTT 7605 L 491-42 Gl 748 19 09 38 +02 48.6 1.801 105.8 -42.6 dM4 W 11.10 +1.51 +1.04 +1.15 099.4 02.2 099.4 02.2 11.09 a -48 -15 -81 G022-018 472 AC+02:2155-242 NN 4105 19 10 40 +35 28.8 0.250 124. m 12.01 +1.56 +1.23 +1.00 058.0 02.9 058.0 02.9 10.83 b G207-022 Wo 9648 A 19 10 48 +49 45.7 0.667 340.0 -39.8 G6 V 6.57 +0.65 +0.21 043.5 02.9 043.5 02.9 4.76 b -62 -43 +35 179958 BD+49 2959 3441 LFT 1459 Wo 9648 B 19 10 47 +49 45.6 0.668 343.7 -41.2 G6 V 6.75 +0.65 +0.19 043.5 02.9 043.5 02.9 4.94 b -65 -43 +31 179957 3440 LFT 1460 Gl 748.1 s 19 11 01 +76 28.7 0.128 161.7 +0.8 SB? F2 V 5.13 +0.31 +0.00 047.3 08.5 047.3 08.5 3.50 d +9 +7 -6 180777 BD+76 717 GJ 1233 19 11 16 +57 34.8 0.451 26.7 -26.3 G8 V 7.04 +0.79 +0.43 039.1 09.0 054. 09. r 5.70 d -40 -22 -13 180161 BD+57 1961 G229-026 6 Gl 748.2A s 19 12 26 +02 04.3 0.513 041.9 K4 K 10.20 +1.19 +0.51 045.9 06.3 045.9 06.3 8.51 c BD+01 3942 G022-021 3447 Gl 748.2B s 19 12 26 +02 04.3 0.513 041.9 k-m 11.17 +1.36 +0.63 045.9 06.3 045.9 06.3 9.48 c 3448 Ross 651 sep 9" 176d (NLTT) Wo 9652 A 19 12 30 +19 13.4 0.726 305.3 M3 K 11.55 +1.13 047.9 04.9 047.9 04.9 9.95 c G185-012 3445 LTT 15634 LFT 1463 Ross 733 double? Wo 9652 B 19 12 30 +19 12.7 0.726 305.3 M3.5 K 13.27 +1.21 047.9 04.9 047.9 04.9 11.67 c G185-013 3446 LTT 15635 LFT 1464 Ross 734 sep 45" 178d Gl 750 A 19 13 03 -45 58.4 0.45 154. -36.8 K9 V J 10.12 +1.42 J+1.08:J+0.97CJ 072.6 08.1 072.6 08.1 9.42 c -44 -16 -3 179930 CP-46 9672 Sm 34 V(AB) = 9.37 d(m) = 0.0 Gl 750 B 19 13 03 -45 58.4 0.45 154. 10.1 * 072.6 08.1 072.6 08.1 9.4 * c sep 0.2" 348d - 0.2" 43d (1929-1949) Gl 751 p 19 13 14 +24 48.3 0.305 51. -70.1 dM0 W 9.72 +1.35 +1.24 +0.58 026.9 07.1 051. 10. r 8.26 d -58 -44 -19 338030 BD+24 3692 G185-014 V193 Gl 752 A 19 14 29 +05 05.8 1.466 204.2 +36.3 M3.5Ve 9.11 +1.50 +1.15 +1.02 176.7 02.4 176.7 02.4 10.35 a +53 -6 -5 180617 BD+04 4048 G022-022 473 V065 Gl 752 B 19 14 32 +05 04.7 1.461 203.1 dM5 e W 17.52v +2.2 : +1.83: 176.7 02.4 176.7 02.4 18.76v a 474 VB 10 NN 4106 19 15 48 -53 48. 0.102 164. M2 S 10.82 +1.58 +0.95t 084. 17. r 10.44 d Sm 36 BPM 26134 Gl 754 19 17 07 -45 36.7 2.945 167.3 +16. M4.5 K 12.23 +1.68 +1.22 +1.33 175.7 08.4 175.7 08.4 13.45 b -10 -69 -41 60 L 347-014 GJ 1234 19 17 15 +38 38.0 0.250 179. DC7 14.57 +0.44 -0.36 085.6 03.9 085.6 03.9 14.23 b G125-003 W375 Gl 754.2 19 17 53 +37 14.4 0.169 196.0 +1.8 G8 V 6.31 +0.68 +0.21 040.7 10.2 060. 10. r 5.20 d +13 -3 -2 181655 BD+37 3417 Gl 754.1A 19 17 53 -07 45.6 0.199 198. DQ5 12.28 +0.06 -0.83 +0.04C 098.8 03.1 098.8 03.1 12.25 a W131 LTT 7658 L 923-21 LDS 678A AC-07:342-402 Gl 754.1B 19 17 51 -07 45.3 0.199 198. +10. dM5 12.12 +1.63 +1.42 +1.09 098.8 03.1 098.8 03.1 12.09 a +13 -4 -3 AC-07:342-397 L 923-22 Gl 755 19 18 12 -35 04.6 0.123 131.7 -10.2 G5 V 6.48 +0.62 +0.19 +0.22 048. 07. r 4.89 d -13 -5 -7 181321 CD-35 13422 NN 4107 19 18 46 -17 56.6 0.035 313.1 +1.2 F0 IV 3.93 +0.23 +0.13 039.1 08.7 039.1 08.7 1.89 d +2 +2 +4 181577 BD-18 5322 Gl 755.1 19 19 23 +14 34.9 0.09 180. +35. DA5 13.01 +0.06 -0.66 050.9 05.3 050.9 05.3 11.54 c -1 -12 -4 W201 BPM 94172 GD 219 GJ 1235 19 19 32 +20 47.5 1.751 212.6 +93. k-m 13.38 +1.71 +1.31 098.4 04.5 098.4 04.5 13.34 b +122 +27 +11 G185-018 476 GJ 1236 19 19 39 +06 57.2 0.836 242.3 +32. m 12.35 +1.69 +1.33 +1.09 091.5 02.4 091.5 02.4 12.16 a +49 -4 +22 G022-026 3457 Gl 756 19 19 49 +28 34.0 0.900 073.7 -30.6 M1 K 11.53 +1.41 +1.05 +0.86 044.6 04.2 044.6 04.2 9.78 c -69 +12 -72 G185-019 3456 AC+28:53670 Gl 756.1 p 19 20 14 -66 34.3 0.324 316.5 +37.9 K5 V 8.40 +1.04 +0.96 +0.32 038.8 10.2 043. 09. r 6.57 d +52 -3 +6 181433 CP-66 3431 NN 4108 19 20 42 +29 20.6 0.704 179.7 m 15.37 +1.82 047.6 04.1 047.6 04.1 13.76 b G207-030 3459 Gl 757 s 19 21 36 -22 09.3 0.494 206.3 K4 K 10.92 +1.41 +1.15 +0.80C 047.4 08.0 047.4 08.0 9.30 d CD-22 13916 5347 Gl 758 19 21 41 +33 07.3 0.190 24.2 -20.6 K0 V 6.37 +0.81 +0.46 056.7 05.1 056.7 05.1 5.14 b -23 -12 -2 182488 BD+32 3411 Gl 759 19 22 35 +11 50.2 0.966 48.4 -100.6 SB? G8 IV 5.16 +0.77 +0.42 +0.24 064.3 04.3 064.3 04.3 4.20 b -118 -29 -21 182572 BD+11 3833 3463 Gl 760 19 22 59 +03 00.8 0.268 72.0 -29.9 SB F0 IV 3.36 +0.32 +0.04 072.5 05.6 072.5 05.6 2.66 b -32 -10 -9 182640 BD+02 3879 DEL Aql NN 4109 19 23 08 +28 15.0 0.410 024.9 M3.5 K 12.48 +1.56 +1.15 067. 17. r 11.6 e G185-022 6 LTT 15670 Ross 164 = LTT 15673 L 1427-13 NN 4110 19 24 36 +16 37.0 0.212 163. m 13.09 +1.18 057. 11. r 11.87 d LTT 15678 L 1284-53 LP 452-10 GJ 1237 19 25 02 +49 21.2 0.843 32.8 -65.3 K3 V 8.01 +0.93 +0.64 040.7 10.4 048. 08. r 6.42 d -91 -47 -28 183255 BD+49 3009 G208-022 3465 GJ 1238 19 25 40 +75 26.7 0.681 033.8 m+ 15.37 +1.94 +1.60 090.7 05.1 090.7 05.1 15.16 b G261-006 3461 NN 4111 19 26 38 +07 03.2 0.348 50. K7 L 10.71 +1.41 +1.21 047. 22. r 9.1 f G023-002 LTT 15688 L 1140-40 LP 572-18 Wo 9657 A s 19 26 47 -27 05.4 0.053 139.0 -31.4 K3 III 5.52 +1.12 +1.35 +0.36 043.8 10.2 021. 05. r 2.1 e -31 -12 +1 183275 CD-27 14004 Wo 9657 B s 19 26 47 -27 05.4 0.053 139.0 -31.8 8.69 +0.86 +0.32 043.8 10.2 021. 05. r 5.3 e -32 -12 +1 Gl 761.1 19 27 26 +31 30.6 0.400 183.3 -10.0 G7 IV 6.96 +0.71 +0.34 048.4 10.2 048.4 10.2 5.38 d +29 -22 -18 183650 BD+31 3618 G207-033 Wo 9659 s 19 28 12 -06 37.1 0.194 223.0 +58.4 G0 7.29 +0.64 +0.19 041.9 08.5 033. 04. r 4.88 c +64 +8 -4 183658 BD-06 5170 LTT 7713 GJ 1239 19 29 14 -35 33.7 0.329 298.3 K5 V 8.71 +1.11 +0.98 +0.43 050. 08. r 7.20 d 183783 CD-35 13554 U468 LTT 7719 GJ 1240 19 29 20 -11 23.0 0.233 85.5 -48.1 K2 V 7.57 +0.92 +0.64 +0.34 057. 09. r 6.35 d -50 -15 -5 183870 BD-11 5030 U469 LTT 7720 Gl 761.2 19 30 04 +00 28.2 0.250 79. -47.9 dM0.5 W 10.43 +1.45 +1.26 +0.68 044.6 03.9 044.6 03.9 8.68 b -50 -18 -13 BD+00 4241 G092-008 V195 NN 4112 19 30 06 -52 32. 0.255 181. M4 S 12.80 +1.55 +1.02t 039. 08. r 10.76 d LTT 7723 L 275-26 BPM 26201 Sm 39 Gl 762 19 30 10 -62 56.9 0.500 226.4 m+ 12.17 +1.48 +0.98 060.2 13.6 060.2 13.6 11.07 d 3471 L 160-102 Gl 762.1 19 30 18 +58 29.0 0.648 232.8 +11.4 SB K1 V 6.59 +0.87 +0.52 048.6 08.8 048.6 08.8 5.02 d +55 +1 +33 184467 BD+58 1929 G229-033 3466 Wo 9661 19 31 39 +07 16.3 0.264 126.1 -25.1 K3 IIIb 4.45 +1.17 +1.26 046.1 08.4 046.1 08.4 2.77 d -17 -22 -24 184406 BD+07 4132 LTT 15709 NN 4113 19 31 56 +39 25.3 0.465 151. M2.5 K 11.70 +0.99 060. 10. r 10.59 d G125-018 LTT 15711 Ross 1063 Gl 763 19 32 09 +04 28.1 0.605 59.9 -57.4 dM0.5 W 9.36 +1.39 +1.23 +0.61 073.7 06.7 073.7 06.7 8.70 b -66 -15 -13 184489 BD+04 4157 G023-005 3470 V196 Gl 764 19 32 28 +69 34.6 1.822 162.0 +28.2 K0 V 4.68 +0.79 +0.38 +0.29 178.2 03.4 178.2 03.4 5.93 a +30 +44 -17 185144 BD+69 1053 477 SIG Dra NN 4114 A p 19 32 41 +08 21.0 0.054 222. -20.5 dM1 10.38 +1.46 +1.22 +0.77 028.3 11.3 048. 06. r 8.79 c -11 -18 +3 V811A AC+08:147-294 NN 4115 B p 19 32 41 +08 21.0 0.054 222. 12.52 +1.52 +0.99 028.3 11.3 048. 06. r 10.93 c V811B sep 6.2" 9d NN 4116 q 19 33 02 +51 07.7 0.185 173.6 +0.4 F7 V 5.73 +0.48 +0.00 +0.17 035.3 10.2 041. 05. r 3.79 c +18 +1 -11 184960 BD+50 2815 NN 4117 19 33 41 +53 08.3 0.572 29.0 M3 K 12.20 +1.64 +1.03 057. 14. r 11.0 e G229-035 3472 LTT 15717 Wolf 1108 Gl 764.1A 19 34 02 -10 33.1 0.385 225.7 +68.0 K2 V 8.58 +1.01 J+0.82 J+0.52CJ 052.5 06.4 052.5 06.4 7.18 c +76 +4 -6 184860 BD-10 5130 U472 ADS 12664 V(AB) = 8.36 d(m) = 1.6 Gl 764.1B 19 34 02 -10 33.1 0.385 225.7 +68.6 K7 K 10.2 * 052.5 06.4 052.5 06.4 8.8 * c +77 +4 -6 sep 2.8" 340d - 5.0" 328d (1832-1959) Gl 764.2 19 34 45 -14 24.8 0.179 215.7 -15.4 F7 V 5.47 +0.50 +0.04 +0.28C 045.0 11.9 050. 08. r 3.96 d -5 -21 +7 184985 BD-14 5479 Gl 765 A 19 35 06 +50 06.3 0.260 355.5 -27.3 F4 V 4.48 +0.38 -0.03 054.0 07.7 054.0 07.7 3.14 d -23 -27 +5 185395 BD+49 3062 THE Cyg ADS 12695 Gl 765 B 19 35 06 +50 06.3 0.260 355.5 13.0 * 054.0 07.7 054.0 07.7 11.7 * d GJ 1241 19 35 10 +27 36.4 0.405 85. DAV5 12.98 +0.17 -0.56 055.6 02.9 055.6 02.9 11.71 b G185-032 W277 NN 4118 19 36 07 +33 46.7 0.107 297.3 G5 7.47 041. 05. o 5.53 c 185501 BD+33 3529 Wo 9664 A s 19 38 18 -59 07.5 0.256 137.9 +19.5 G5 V 7.48D +0.71 +0.28 039.7 10.2 036. 06. r 5.26D d -4 -23 -31 185454 CP-59 7505 LTT 7783 Wo 9664 B s 19 38 18 -59 07.5 0.256 137.9 8.7 * 039.7 10.2 036. 06. r 6.5 * d NN 4119 p 19 39 19 -45 11.8 0.242 188. M1 S 10.01 +1.34 +0.64t 034.0 11.0 051. 08. r 8.55 d CD-45 13383 LTT 7786 CFS 18799 CP-45:9776 Sm 42 GJ 1242 s 19 39 24 +03 02.5 0.536 209.5 m 12.88 +1.60 +1.23 +0.97 042.7 02.6 042.7 02.6 11.03 b G023-008 3479 NN 4120 19 40 06 +71 45.5 0.454 205.0 M0.5 K 10.96 +1.48 +1.25 +0.76 048.1 07.3 048.1 07.3 9.37 d G260-030 6354 LTT 18490 AC+71:8595 Gl 765.1A q 19 40 29 +50 24.5 0.214 225.9 -27.4 G2 V 5.96 +0.64 +0.19 035.2 05.0 043. 04. s 4.13 c +19 -31 +1 186408 BD+50 2847 Gl 765.1B q 19 40 32 +50 24.0 0.211 221.5 -28.1 G5 V 6.20 +0.66 +0.20 035.2 05.0 043. 04. s 4.37 c +19 -31 -1 186427 BD+50 2848 Gl 765.2 19 40 40 +76 18.2 0.211 46.6 -3.8 dK0 W 8.08 +0.88 +0.55 043.9 11.2 040. 06. r 6.09 d -21 -6 -12 186922 BD+76 750 Wo 9666 19 40 42 -15 35.3 0.235 139.9 +12.8 F5 IV 5.49 +0.46 +0.02 043.6 13.6 043.6 13.6 3.7 e +9 -8 -26 186185 BD-15 5444 LTT 7797 NN 4121 19 41 45 -71 12.2 0.673 176.3 m 13.9 * +1.19 041. 08. r 12.0 * d 3484 LTT 7809 L 79-24 Gl 765.3 19 42 16 +57 53.8 0.129 114.2 -29.8 F8 H 6.23 +0.55 +0.05 045.6 08.5 042. 05. r 4.35 c +0 -25 -22 186760 BD+57 2057 Gl 765.4A 19 43 39 +33 29.1 0.431 177.7 +4.4 K3 V 8.35 +0.99 J+0.78 J+0.37 J 043.9 03.9 043.9 03.9 6.56 b +39 -8 -24 186858 BD+33 3582 G125-029 ADS 12889 V(AB) = 7.68 d(m) = 0.19 , cpm: Gl 767.1 sep 13' Gl 765.4B 19 43 39 +33 29.1 0.431 177.7 K3 V 8.54* 043.9 03.9 043.9 03.9 6.75* b a = 2.048" P = 224.68 yr Gl 766 A 19 43 43 +27 01.2 1.226 181.5 dM4.5 J W 12.91 +1.72 J +1.28 J 093.1 05.6 093.1 05.6 12.75 b G185-037 478 Ross 165 V(AB) = 12.38 d(m) = 0.5 Gl 766 B 19 43 43 +27 01.2 1.226 181.5 13.4 * 093.1 05.6 093.1 05.6 13.2 * b a = 1.10" P = 81 yr Heintz AJ 101, 1071 NN 4122 19 43 52 +32 15.7 0.457 63. M0 K 10.86 +0.88 058. 09. r 9.68 d G125-030 LTT 15769 L 1501-53 LP 337-3 Gl 767 A 19 44 26 +31 53.9 0.623 131.0 -4.4 M0.5 K 10.15 +1.48 +1.17 +0.85 074.1 02.0 074.1 02.0 9.50 a +6 -5 -39 331161 BD+31 3767 G125-031 3482 V197 Gl 767 B 19 44 26 +31 53.9 0.623 131.0 -3.5 M2 : K 11.10 +1.52 074.1 02.0 074.1 02.0 10.45 a +6 -4 -39 3483 Gl 767.1A 19 44 32 +33 36.6 0.444 178.9 +4.2 F5 IV-V 4.99 +0.47 +0.00 044.4 02.5 044.4 02.5 3.23 b +40 -9 -24 187013 BD+33 3587 ADS 12913 common motion: Gl 765.4 Gl 767.1B 19 44 34 +33 36.8 0.443 177.6 +4.5 dK6 W 8.56 +1.04 +0.95 +0.38 044.4 02.5 044.4 02.5 6.80 b +39 -8 -25 225732 BD+33 3589 sep 25.8" 73d - 26.0" 70d (1832-1953) NN 4123 19 47 13 +08 04.9 0.249 243. k 15.21 +1.72 +1.25 039. 16. r 13.2 f G092-028 NN 4124 19 48 05 +32 27.2 0.526 61.7 M3 K 12.41 +1.62 +1.06 058.5 03.4 058.5 03.4 11.25 b G125-035 3489 LTT 15792 LFT 1498 L 1501-39 LP 338-2 NN 4125 19 48 19 +31 39.0 0.365 27. m 12.88 +1.06 042. 08. r 11.00 d G125-036 LTT 15794 L 1501-69 LP 338-4 Gl 768 19 48 21 +08 44.1 0.662 54.3 -26.1 A7 IV-V 0.77 +0.22 +0.08 +0.02 201.0 03.8 201.0 03.8 2.29 a -29 -10 -2 187642 BD+08 4236 3490 ALF Aql Gl 768.1A 19 48 38 +10 17.4 0.274 120.0 -0.2 F8 V 5.11 +0.55 +0.07 046.3 13.1 059. 07. r 3.96 c -2 -3 -22 187691 BD+10 4073 OMI Aql ADS 13012AC ADS 13012B optical Gl 768.1B 19 48 38 +10 17.4 0.274 120.0 -1.2 M3 K 13.10 +1.18 046.3 13.1 059. 07. r 11.95 c -3 -3 -22 GJ 1243 19 49 37 +46 21.0 0.290 32. m 12.83 +1.64 +1.22 083.9 02.4 083.9 02.4 12.45 a G208-042 NN 4126 q 19 49 43 +11 30.2 0.484 226.3 -19.5 G0 V 6.13 +0.65 +0.13 023.4 17.0 051. 05. s 4.67 c +22 -41 +15 187923 BD+11 4019 LTT 15805 Gl 769 p 19 50 22 -47 55.6 1.072 186.2 +25. M3 K 12.53 +1.56 +1.12 +0.96 038.4 09.3 038.4 09.3 10.5 e -2 -133 -18 480 L 349-068 GJ 1244 19 50 37 -72 29.5 0.299 182.5 K5 V 8.45 +1.06 +0.98 +0.38 049. 07. r 6.90 d 187456 CD-72 1570 U477 LTT 7857 Gl 770 19 51 18 -24 04.0 0.426 197.4 -5.1 SB K3/4 V 6.17 +1.02 +0.94 +0.34 071.7 08.3 071.7 08.3 5.45 c +3 -28 +1 188088 CD-24 15668 U479 NN 4127 19 51 39 +34 00.4 0.241 2. m 11.63 +0.89 046. 08. r 9.94 d G125-042 LTT 15815 L 1501-20 LP 282-7 NN 4128 19 52 06 +32 25.8 0.251 51. m 12.43 +0.98 041. 08. r 10.49 d G125-043 LTT 15818 L 1501-51 LP 338-6 GJ 1245 A 19 52 16 +44 17.5 0.731 143.1 M5.5 V e 13.41 +1.90 +1.65 212.0 04.3 212.0 04.3 15.04 a G208-044 3494 V1581 Cyg orbit in Harrington AJ 100, p 559 (1990) GJ 1245 B 19 52 17 +44 17.5 0.731 143.1 m 14.01 +1.98 +1.71 212.0 04.3 212.0 04.3 15.64 a G208-045 3495 sep 7" 103d (LHS) Wo 9672 s 19 52 33 +03 56.0 0.383 229.6 +50.0 K3 K 9.40 +0.99 +0.80 +0.40 040.7 11.9 030. 04. r 6.79 c +78 -4 +10 188427 BD+03 4191 G023-017 LTT 15820 Gl 771 A 19 52 51 +06 16.8 0.481 174.8 -40.7 G8 IV 3.72 +0.86 +0.48 +0.31 074.3 08.1 074.3 08.1 3.07 c -12 -49 -9 188512 BD+06 4357 5350a BET Aql Gl 771 B 19 52 51 +06 16.8 0.481 174.8 M3 K 11.4 * 074.3 08.1 074.3 08.1 10.8 * c GJ 1246 19 53 26 -31 28.2 0.418 86.8 K4 V 8.43 +0.98 046. 06. r 6.74 c 188474 CD-31 17179 U634 LTT 7876 Gl 772 19 53 56 -01 10.0 0.790 211.9 +76. DA6 13.70 +0.28 -0.60 -0.06 086.1 03.1 086.1 03.1 13.38 a +51 -14 -5 G092-040 3501 W135 LTT 7879 LFT 1503 LP 634-1 L 997-021 Wo 9674 19 54 30 +51 08.1 0.586 052.6 M2 K 12.0 * 045.6 04.1 045.6 04.1 10.3 * c G230-018 3499 LFT 1505 LTT 15835 Wolf 1122 Gl 773 A 19 54 33 -12 41.7 0.516 189.1 -10.6 VAR K4 V 9.30 +1.33 +1.21 +0.56 047.4 05.4 047.4 05.4 7.68 c +11 -51 -9 188807 BD-12 5594 3502 V327 Gl 773 B 19 54 37 -12 41.5 0.520 188.1 m 15.36 +1.54 047.4 05.4 047.4 05.4 13.74 c 3503 V327B LP 754-5 sep. 62" 75d (LHS) GJ 1247 19 54 35 -55 04.3 0.177 138.1 K3 V 8.60 +1.08 +0.88 +0.38 044. 07. r 6.82 d 188559 CD-55 8349 U481 BPM 26450 Gl 773.2 s 19 55 13 +29 41.1 0.262 19.7 -29.6 K0 Ve 7.90 +0.80 +0.38 047.4 10.8 038. 06. r 5.80 d -41 -15 +7 189087 BD+29 3820 G125-048 Wo 9677 A 19 55 39 +59 01.7 0.421 255. dM0 p M 9.96 +1.22 +0.59 040. 05. r 7.97 c BD+58 2015 G230-021 V813 Wo 9677 B 19 55 30 +59 01.3 0.421 255. m 13.50 +1.48 +1.12 040. 05. r 11.51 c G230-020 NN 4129 19 55 45 +01 54.6 0.864 201.3 k 11.95 +1.55 +1.33 +1.02 063.1 03.8 063.1 03.8 10.95 b G023-019 3505 LTT 15840 LP 634-2 L 1069-28 Gl 773.3 19 57 04 -10 05.4 0.483 214.5 +30.2 SB G0 V 5.88 +0.58 +0.05 +0.21 040.6 07.2 040.6 07.2 3.92 d +56 -31 -2 189340 BD-10 5238 5351a Gl 773.4 19 57 07 -33 50.3 0.315 155.6 -8.2 VAR F8 V 5.66 +0.49 -0.02 +0.15 051.6 07.2 051.6 07.2 4.22 d -13 -24 -13 189245 CD-34 14082 NN 4130 19 58 34 +22 34.6 0.238 179.7 G5 7.67 052. 06. o 6.25 c 189733 BD+22 3887 LTT 15851 Gl 773.6 19 58 50 -50 11.2 0.532 135.4 +19.3 K5 V 8.66 +1.12 +1.09 +0.42 047.8 10.2 051. 08. r 7.20 d -10 -30 -43 189484 CP-50 11256 3508 U487 optical double Gl 774 A 19 59 20 -65 43.7 0.863 172.5 +72. m 11.35 +1.48 +0.98 +0.96 074.6 07.4 074.6 07.4 10.71 c +25 -77 -41 3513 L 115-021 Sm 48 Gl 774 B 19 59 20 -65 43.7 0.863 172.5 +33. m 12.82 +1.56 +1.01 +1.11 074.6 07.4 074.6 07.4 12.18 c -4 -60 -21 3512 sep 16" 284d (LHS) Gl 775.1 20 00 17 +15 27.6 0.598 195.9 +20.0 G8 V 7.16 +0.71 +0.23 +0.27 066.7 24.0 045. 07. r 5.43 d +60 -20 -19 190067 BD+15 4026 3507 Gl 775 20 00 17 +03 11.0 0.150 326.6 -29.7 K4 V 7.46 +1.14 +1.08 +0.42 070.6 10.2 070.6 10.2 6.70 d -22 -15 +16 190007 BD+02 4076 Gl 776 20 00 34 -67 27.2 1.081 129.8 -12.2 G2 V 6.08 +0.65 +0.07 +0.23 053.0 07.2 053.0 07.2 4.70 c -75 -34 -52 189567 CP-67 3703 484 Gl 776.1 s 20 00 41 -45 47.7 0.584 270.7 K4 : K 12.15 +1.40 +0.72 047.1 13.6 023. 05. r 8.96 d 3517 L 349-18 NN 4131 20 00 56 -31 49.7 0.813 156.6 m 14.5 * +1.31 050. 08. r 13.0 * d 3516 LP 926-31 NN 4132 20 01 19 -08 16.1 0.570 243.3 k-m 13.4 * +1.23 060. 11. r 12.3 * d 3514 LP 694-16 GJ 1248 20 01 24 +05 51.9 0.922 212.0 k-m 12.09 +1.60 +1.14 +0.96 078.9 04.3 078.9 04.3 11.58 b G023-024 3511 Gl 777 A 20 01 34 +29 45.7 0.864 127.7 -45.9 G8 IV-V 5.71 +0.73 +0.37 +0.27 058.1 02.6 059.8 06.5 4.59 c -12 -46 -68 190360 BD+29 3872 3510 Gl 777 B 20 01 23 +29 43.9 0.857 127.9 -5.0 M4 : K 14.37 +1.67 +1.12 +1.37 085.4 10.2 059.8 06.5 13.25 c +4 -8 -68 G125-055 3509 faint comp (?): Heintz AJ 96 : sep 4.4" 114d (1971.2) m = 15.5 Gl 778 20 01 47 +23 12.7 1.353 228.3 -1.8 K1 V 7.26 +0.82 +0.40 +0.31 054.7 18.3 055. 08. r 5.96 d +99 -52 +32 190404 BD+22 3908 G186-011 481 Gl 779 20 01 51 +16 56.0 0.571 224.3 +4.8 G1 V 5.80 +0.61 +0.09 +0.19 060.2 05.6 060.2 05.6 4.70 c +40 -19 +9 190406 BD+16 4121 3515 Gl 779.1 20 02 04 +25 38.9 0.085 241.1 -6.4 K3 V 7.88 +0.91 +0.71 051. 08. r 6.42 d +4 -9 +4 190470 BD+25 4085 NN 4133 20 02 46 -11 05.4 1.081 094.9 DC9 16.87 +1.04 057.2 05.5 057.2 05.5 15.66 c 483 W498 LP 754-16 NN 4134 q 20 02 53 +54 19.5 0.124 157.7 -9.0 dK0 7.72 +0.94 +0.65 014.4 20.5 054. 07. r 6.38 c +6 -7 -10 190780 BD+54 2281 GJ 1249 20 03 20 +38 20.0 0.278 68.5 -22.5 G5 IV 6.17 +0.65 +0.18 043.8 08.5 043.8 08.5 4.38 d -29 -14 -19 190771 BD+38 3896 BS 7683 LTT 15881 ADS 13348 6.6-12.8 sep 12" 230d Gl 780 20 03 50 -66 18.7 1.660 133.5 -21.7 G8 V 3.56 +0.76 +0.45 +0.23 175.2 08.2 175.2 08.2 4.78 b -47 -12 -13 190248 CP-66 3474 485 DEL Pav Gl 781 s 20 03 55 +54 18.2 1.455 232.7 -148.0 SB dM3 e W 11.99 +1.54 +0.82 059.9 02.0 059.9 02.0 10.88 a +103 -156 +11 G230-026 482 AC+55 50103 NN 4135 20 04 25 +52 49.4 0.264 44. m 13.16 +1.18 055. 11. r 11.86 d G230-027 LTT 15891 Wolf 1131 Gl 781.1A 20 04 38 -31 53.6 0.796 158.8 M3 K 12.25 +1.55 +1.11 +1.06 050.7 10.2 050.7 10.2 10.78 d 3524 LP 926-52 L 565-062 Gl 781.1B 20 04 35 -31 53.3 0.796 158.8 M3.5 K 12.50 +1.63 +1.07 +1.18 050.7 10.2 050.7 10.2 11.03 d 3523 LP 926-51 L 565-063 sep 41" 292d (NLTT) NN 4136 20 05 21 -01 41.2 0.407 129. k-m 13.55 +1.62 +1.20 049. 22. r 12.0 f G024-005 LTT 7959 L 997-68 LP 634-18 GJ 1250 20 06 21 +33 09.0 0.488 039.4 m 14.88 +1.82 +1.14 046.8 06.2 046.8 06.2 13.23 c G125-062 5354 Gl 781.2 s 20 06 48 -14 26.0 0.120 113.5 -14.5 K3/4 V 9.76 +1.15 +1.05 +0.48 047.9 11.9 036. 04. r 7.54 c -17 -9 -9 191285 BD-14 5652 V329 Gl 781.3 20 07 21 -21 55.4 0.311 158. +35. DA6 14.44 +0.19 -0.70 059. 16. w 13.3 e -9 -23 -11 W137 LTT 7983 LP 870-43 L 710-30 Gl 782 20 07 26 -20 38.2 0.565 231.0 +19.4 SB? K4 Vp 8.92 +1.29 +1.21 +0.55 063.2 06.8 063.2 06.8 7.92 c +39 -24 +10 191391 BD-20 5833 3526 V330 GJ 2147 20 07 51 -30 21.9 0.423 236. DA4 12.18 +0.07 -0.66 079. 16. w 11.67 d W LTT 7987 L 565-18 NN 4137 20 07 54 -25 43.4 0.848 166.6 m 14.98 +1.34 045. 07. r 13.25 d 3528 LP 870-45 Gl 783 A 20 07 55 -36 13.7 1.633 163.8 -129.8 K3 V 5.32 +0.87 +0.46 +0.34 177.1 09.4 177.1 09.4 6.56 b -118 -49 +48 191408 CD-36 13940 486 Gl 783 B 20 07 55 -36 13.7 1.633 163.8 M3.5 K 11.5 * 177.1 09.4 177.1 09.4 12.7 * b 487 Gl 783.2A p 20 08 50 +16 02.0 0.574 314.7 -48.3 K1 V 7.33 +0.85 +0.49 +0.30 035.5 10.3 051. 06. r 5.87 c -31 -26 +59 191785 BD+15 4074 G143-034 3529 Gl 783.2B p 20 08 57 +16 01.8 0.572 312.9 dM 13.94 +1.62 +1.14 +1.24 035.5 10.3 051. 06. r 12.48 c G143-035 3530 NN 4138 20 09 36 +38 14.9 0.122 16.3 -6. G8 V 7.95 +0.86 +0.57 041. 04. o 6.01 c -15 -3 +4 192020 BD+37 3812 SpT: K1 IV OP, mod = 1.94 Olsen NN 4139 q 20 09 39 -12 45.9 0.275 134.6 +22.6 F7 V 5.85 +0.48 -0.07 038.1 07.1 039. 05. r 3.81 c +13 -6 -38 191862 BD-13 5608 LTT 7995 Gl 784 20 10 19 -45 18.8 0.796 102.5 -31.1 M0 V 7.97 +1.43 +1.18 +0.73 163.9 08.5 163.9 08.5 9.04 b -39 +1 -2 191849 CD-45 13677 3531 U492 Sm 50 Gl 784.2A 20 11 32 +06 32.5 0.633 202.8 dM5 13.19 +1.54 +1.22 +1.20 044.4 02.0 044.4 02.0 11.43 a G024-010 3533 LTT 15922 L 1142-088 Gl 784.2B 20 11 29 +06 34.0 0.633 202.8 DA7 15.72 +0.37 -0.40 +0.29 044.4 02.0 044.4 02.0 13.96 a G024-009 3532 W138 LTT 15921 NN 4140 20 11 47 -07 25.8 0.269 178. K7 V U 10.20 +1.34 +1.22 +0.61 043. 08. r 8.37 d BD- 7 5223 V815 LTT 8005 U494 Gl 785 20 12 10 -27 11.0 1.259 98.5 -54.4 SB? K0 V 5.73 +0.88 +0.64 +0.32 108.8 13.5 108.8 13.5 5.91 c -74 -11 -20 192310 CD-27 14659 488 Gl 786 20 12 24 +77 04.8 0.517 6.7 -1.1 dM0 W 8.88 +1.33 +1.28 060.4 03.1 060.4 03.1 7.79 b -34 -19 +12 193202 BD+76 785 G261-019 3527 NN 4141 20 12 37 -39 38.5 0.251 149.3 K1 V 7.77c +0.86c 047. 07. r 6.13c d 192354 CD-39 13701 LTT 8014 V, B-V from Geneva, CPC Gl 786.1 p 20 14 11 +42 49.5 0.06 170. dM0 p M 9.97 +1.34 +1.30 +0.60 034.6 03.8 034.6 03.8 7.67 c V818 AC+42:849-367 NN 4142 s 20 14 28 +06 46.0 0.161 86.4 -57.3 dK8 M 9.72 +1.14 +1.08 +0.44 047.2 17.0 033. 04. r 7.31 c -49 -37 -3 BD+06 4489 V817 Gl 787 20 16 07 -46 35.1 0.387 255.7 +29.9 K5 V 8.72 +1.16 +1.14 +0.48 062.6 06.8 062.6 06.8 7.70 c +39 -14 +6 192961 CP-46 9951 U495 Sm 51 NN 4143 20 16 30 +15 41.0 0.207 108. m 11.79 +1.00 058. 11. r 10.61 d LTT 15944 L 1286-87 LP 455-12 Gl 788 20 17 02 +66 41.6 0.549 57.6 -4.6 G5 V 5.93 +0.58 +0.06 072.9 08.2 072.9 08.2 5.24 c -31 -5 -17 193664 BD+66 1281 3537 NN 4144 20 17 13 +07 51.0 0.182 152. m 12.92 +1.09 045. 09. r 11.19 d LTT 15948 L 1142-58 LP 575-38 NN 4145 20 17 27 -51 57.0 0.11 336. M0 S 10.20 +1.41 +0.71t 056. 10. r 8.94 d CD-52 9466? Sm 52 Wo 9691 20 18 04 -50 09.3 0.432 235.6 +17.9 G2 IV-V 6.27 +0.55 -0.02 +0.20 043.5 07.8 043.5 07.8 4.46 d +30 -35 +21 193307 CD-50 12929 LTT 8055 Gl 788.1 20 18 35 -58 26.4 0.845 114.8 -66. m 10.59 +1.46 +1.16 +0.68 051.2 08.5 051.2 08.5 9.14 d -101 -1 -19 CD-58 7734 3542 Sm 54 GJ 1251 20 21 33 -76 49.9 1.430 152.9 +122. M4.5 13.82 +1.74 +1.13 +1.26 059. 10. r 12.67 d -9 -145 -83 493 GJ 1252 20 23 46 -56 35.7 1.283 161.4 +6. m 12.23 +1.45 +1.07 +0.97 042. 08. r 10.35 d -61 -127 -35 492 Gl 790 20 24 38 -31 01.6 0.519 181.6 -1.0 G5 V 6.61 +0.73 +0.28 +0.24 056.3 04.7 056.3 04.7 5.36 b +3 -43 -8 194640 CD-31 17597 3554 Gl 791 20 24 40 -27 54.1 0.892 192.9 -16. M3 K 11.41 +1.52 +1.12 +1.04 079.6 09.0 079.6 09.0 10.91 c +0 -55 +6 CD-28 16676 3553 NN 4146 20 24 50 +27 20.9 0.288 0. m 12.27 +0.97 043. 08. r 10.44 d G186-027 LTT 15978 L 1431-22 LP 339-7 GJ 1253 20 24 58 +58 24.0 0.606 024.1 M5 K 14.04 +1.79 +1.42 107.6 03.6 107.6 03.6 14.20 a G230-040 3549 Wolf 1069 Gl 791.1A 20 26 01 -17 58.8 0.029 215.5 +18.4 F2 IV 4.78 +0.38 J+0.03 J+0.36CJ 052.1 07.9 052.1 07.9 3.36 d +16 +5 -8 194943 BD-18 5689 RHO Cap ADS 13887AB V(AB) = 4.78 d(m) = 5.2 Gl 791.1B 20 26 01 -17 58.8 0.029 215.5 10.0 * 052.1 07.9 052.1 07.9 8.6 * d sep 0.5" 158d (1958), optical? Gl 791.2 20 27 21 +09 31.2 0.685 079.8 -15. dM6 e 13.05 +1.65 +1.28 +1.32 114.2 01.9 114.2 01.9 13.34 a -28 -5 -16 G024-016 3556 LTT 15983 HU Del Wo 9697 A p 20 28 04 +26 40.6 0.197 224.8 +15.4 dM1 W 10.28 +1.34 J+1.24:J+0.60 J 028.4 04.6 028.4 04.6 7.55 d +36 +3 +3 BD+26 3915 V067 LTT 15985 V(AB) = 9.71 d(m) = 0.4 , Sp T.: K7 (Kui) Wo 9697 B p 20 28 04 +26 40.6 0.195 228. 10.7 * 028.4 04.6 028.4 04.6 8.0 * d sep 1.3" 335d Gl 791.3 s 20 29 33 +33 36.3 0.151 90.0 -26.8 dK8 M 9.23 +1.13 +1.08 +0.42 049.2 10.2 039. 05. r 7.19 c -18 -24 -13 BD+33 3936 V819 Gl 792 20 29 34 +38 22.9 0.743 16.8 M4 K 13.48 +1.76 +1.24 066.4 02.7 066.4 02.7 12.59 a G209-033 3559 Ross 188 Gl 793 20 29 50 +65 16.6 0.533 57.9 +10.1 dM3 W 10.56 +1.56 +1.21? +1.08 120.4 07.0 120.4 07.0 10.96 b -21 +9 -6 G262-015 3558 V820 AC+65:6955 mu(GSC-AC) 0.522" 57.5d opt. comp. 33." 149d (1983.68) Gl 793.1 20 31 06 +41 43.2 0.486 340.6 -6.1 SB G9 V 7.09 +0.79 +0.38 +0.31 051.1 04.9 051.1 04.9 5.63 c -26 -3 +37 195987 BD+41 3799 G209-035 NN 4147 20 31 25 -13 53.7 0.097 43.3 -42.7 F6 V 6.13 +0.54 -0.02 +0.19 039. 05. r 4.09 c -39 -11 +17 195838 BD-14 5781 BS 7855 NN 4148 20 31 31 +23 11.8 0.287 73. m 12.93 +1.09 045. 09. r 11.20 d G186-029 LTT 16001 L 1359-22 LP 395-15 NN 4149 20 32 11 +03 10.8 0.564 155.8 m 12.00 +1.43 +0.97 +1.00 048.0 2.5 050. 10. r 10.49 d G024-020 3564 LTT 16006 USNO 762 Gl 794 20 32 14 +24 54.0 0.662 214.2 +71.0 VAR DA3 11.52 -0.07 -0.87 069.4 02.3 069.4 02.3 10.73 a +52 +6 -5 G186-031 3562 W139 LTT 16005 LFT 1554 Wolf 1346 AC+24:747-102 GJ 1254 20 32 40 +61 34.0 1.052 030.5 -29. m 12.52 +1.52 +1.23 062.5 02.8 062.5 02.8 11.50 a -75 -39 +0 G230-042 494 NN 4150 20 33 18 +64 08.9 0.436 254. m 13.08 +1.10 043. 09. r 11.25 d G262-018 NN 4151 20 33 51 +59 07.1 0.262 260. m 13.43 +1.19 051. 10. r 11.97 d G230-043 LTT 16016 Wolf 1074 Gl 794.1 20 34 04 -47 28.0 0.088 38.6 -1.3 K0 III 3.11 +1.00 +0.80 +0.46C 044.8 13.6 044.8 13.6 1.4 e -3 +8 -4 196171 CD-47 13477 ALF Ind NN 4152 20 34 54 +38 40.1 0.237 134. m 13.35 +1.17 049. 09. r 11.80 d G209-038 LTT 16018 L 1575-70 LP 284-7 NN 4153 20 35 08 +21 46.5 0.288 190. M2 L 11.44 +1.50 +0.83 043. 07. r 9.61 d G144-016 LTT 16019 Wolf 1351 Gl 794.2 20 35 55 -60 43.1 0.650 151.8 -31.6 F8 V 5.12 +0.53 +0.01 +0.20 046.6 09.8 055. 05. s 3.82 b -55 -33 +4 196378 CP-60 7419 3569 PHI(2) Pav Gl 794.3 20 36 47 +38 27.7 0.290 133.9 -21.4 G2 V 6.75 +0.62 +0.12 048.4 10.2 040. 06. r 4.76 d -1 -23 -34 196850 BD+38 4172 Gl 795 A 20 37 05 +04 47.6 0.882 84.1 -39.2 SB K4 V 8.18 +1.22 J+1.17 J+0.54 J 063.5 03.1 063.5 03.1 7.19 b -66 -17 -34 196795 BD+04 4510 G024-023 3568 V821 Kpr 99 V(AB) = 7.87 d(m) = 1.2 Gl 795 B 20 37 05 +04 47.6 0.882 84.1 K8 V 9.4 * 063.5 03.1 063.5 03.1 8.4 * b a = 0.80" P = 39.40 yr Gl 796 20 37 13 -23 57.5 0.678 46.8 -45.3 G8 V 6.36 +0.72 +0.22 +0.26 070.1 08.8 070.1 08.8 5.59 c -61 +19 +7 196761 CD-24 16193 3570 GJ 1255 - s 20 52 04 +74 34.9 0.705 35.1 -29.9 G8 V 7.80 +0.70 +0.15 044.7 09.5 044.7 09.5 6.05 d -61 -52 -8 199476 BD+74 889 G261-029 3592 GJ 1255 ABs 20 38 03 +75 25.0 0.650 30.7 SB K0 V 8.0 * +0.86 J+0.44 J+0.35 J 040.4 02.4 040.4 02.4 6.0 * b 197433 BD+75 752 G261-028 3565 Wo 9703 VW Cep Hei 7 a = 0.51" P = 30.45 yr, V(AB) = 7.08 d(m) = 0. GJ 1255 C s 20 38 03 +75 25.0 0.650 30.7 10.4 * 040.4 02.4 040.4 02.4 8.4 * b sep(AC) 0.64" 223.3d (1974.64), d(m) = 2.9 NN 4154 20 38 07 -81 53.8 0.745 136.6 m 11.5 * +1.06 079. 16. r 11.0 * d 3583 LTT 8178 L 23-30 GJ 1256 20 38 10 +15 18.7 1.487 063.3 -76. dM4-5 13.43 +1.72 +1.29 +1.37 101.6 02.3 101.6 02.3 13.46 a -94 -41 -11 G144-025 495 NN 4155 20 38 13 -10 17.5 M0 e s 11.94 +1.51 +1.17 +0.92 044. 08. r 10.16 d Steph 1806 Gl 797 A 20 38 29 +19 45.2 0.338 21.8 -35.8 G5 V 6.45 +0.63 +0.09 +0.22 049.8 02.1 049.8 02.1 4.94 a -43 -16 +16 197076 BD+19 4484 Gl 797 B 20 38 29 +19 43.1 0.330 22. -35.4 m 11.88 +1.55 +1.26 049.8 02.1 049.8 02.1 10.37 a -42 -16 +15 G144-026 L 1288-004 Gl 798 20 38 37 -52 51.8 1.069 176.4 -42.9 K7 V 8.82 +1.31 +1.13 +0.61 082.0 07.9 082.0 07.9 8.39 c -48 -52 +26 196877 CP-53 9928 496 U501 CD-53:8617 Sm 63 Gl 799 A 20 38 44 -32 36.6 0.429 140.5 -4.0 dM4.5e W 10.99 +1.57 J+0.88 J+1.33 J 122.8 06.1 122.8 06.1 11.44 b -9 -12 -8 196982 CD-32 16135 U502 AT Mic V(AB) = 10.24 d(m) = 0.0 Gl 799 B 20 38 44 -32 36.6 0.429 140.5 -3.0 dM4.5e W 11.0 * 122.8 06.1 122.8 06.1 11.4 * b -8 -12 -9 sep 3.9" (1962) GJ 1257 s 20 38 45 -22 29.4 0.833 130.6 -60.3 K5 V 9.70 +1.11 +0.87 +0.54 049.4 03.9 049.4 03.9 8.17 b -72 -63 -28 196998 CD-22 14919 3572 U503 LTT 8180 Wo 9704 GJ 2149 20 39 36 -68 16.0 0.247 138. DA3 13.4 : +0.1 : -0.80 039. 09. w 11.4 : e W140 LTT 8190 L 116-79 BPM 13491 Gl 799.1 20 39 41 -20 15.3 0.347 105. DA3 12.38 -0.08 -0.83 041.8 04.6 041.8 04.6 10.49 c W141 LTT 8189 L 711-10 Gl 800 A 20 40 04 -19 05.2 1.10 144. +5.0 dM2 W 10.84 +1.43 J+1.0 :J+0.85 J 067.2 07.2 067.2 07.2 9.98 c -8 -52 -57 BD-19 5899 V(AB) = 10.78 d(m) = 3.2 Gl 800 B 20 40 04 -19 05.2 1.10 144. 14.0 * 067.2 07.2 067.2 07.2 13.1 * c sep 2" 240d, two optical companions NN 4156 20 40 12 +57 14.5 0.291 18. -24.0 K7 K 10.29 +1.36 +1.26: +0.60 044.9 11.2 042. 08. r 8.41 d -29 -28 +7 BD+56 2471 V068 LTT 16050 NN 4157 20 40 14 -29 36.1 0.206 190.5 -19.8 G5 V 6.95 +0.67 +0.24 043. 06. r 5.12 d -10 -26 +11 197214 CD-29 17282 LTT 8195 NN 4158 20 40 23 -52 06.1 0.169 109.0 -1.6 A7 III-IV 4.51 +0.27 +0.09 047.3 11.5 047.3 11.5 2.9 e -12 -4 -11 197157 CP-52 11752 BS 7920 other SpT: A6 - A9 var NN 4159 20 41 06 -00 21.8 0.448 54. K0 11.47 +1.48 +1.24 050. 24. r 10.0 f G024-027 LTT 8204 L 999-6 Gl 802 20 41 53 +55 08.8 1.915 027.6 -23.0 dM5 e W 14.68 +1.79 +1.53: 063.3 05.4 063.3 05.4 13.69 b -140 -32 +22 G231-013 498 Wolf 1084 Gl 803 20 42 04 -31 31.1 0.441 142.1 -7.1 M0 Ve 8.81 +1.42 +0.95 +0.85 106.9 05.3 106.9 05.3 8.95 b -12 -15 -8 197481 CD-31 17815 V824 AU Mic NN 4160 A 20 42 05 +08 43.0 0.253 50. k-m 11.27 +0.84 052. 07. r 9.85 c LTT 16064 L 1143-65 LP 576-40 NN 4161 B 20 42 04 +08 43.2 0.253 50. m 12.54 +1.15 052. 07. r 11.12 c LTT 16065 L 1143-66 LP 576-39 sep 15" 345d Gl 804 20 42 06 +19 34.5 0.560 177.7 +3.0 dM1.5e W 10.31 +1.45 +1.15 +0.75 048.8 04.7 048.8 04.7 8.75 c +36 -23 -34 352860 BD+19 4499 G144-034 3576 NN 4162 20 42 44 -29 38.1 0.546 218.0 m 13.4 * +1.17 048. 09. r 11.8 * d 3580 LP 928-7 Gl 805 20 43 08 -25 27.1 0.162 197.7 +25.8 F5 V 4.13 +0.43 +0.02 +0.14 073.5 18.8 077. 12. r 3.56 d +23 -2 -15 197692 CD-25 15018 PSI Cap Gl 806 20 43 18 +44 18.7 0.506 056.7 -24.4 dM3 W 10.77 +1.53 +1.19 +0.93 085.4 01.4 085.4 01.4 10.43 a -29 -21 -9 G209-041 3577 AC+44:871-589 Wo 9706 20 44 07 +57 24.0 0.243 196.4 -32.4 F8 IV-V 4.51 +0.54 +0.10 043.8 07.6 043.8 07.6 2.72 d +27 -28 -15 198084 BD+57 2240 LTT 16071 Gl 806.1A 20 44 11 +33 46.9 0.484 47.2 -10.9 SB K0- III 2.45 +1.03 +0.87 052.0 08.9 052.0 08.9 1.03 d -45 -1 -6 197989 BD+33 4018 5358b EPS Cyg Gl 806.1B 20 44 05 +33 46.8 0.480 047.5 M4 13.40 +1.66 +1.11 052.0 08.9 052.0 08.9 11.98 d 5358a Gl 807 20 44 16 +61 38.6 0.826 6.3 -86.8 K0 IVe 3.43 +0.92 +0.62 +0.33 076.1 06.3 076.1 06.3 2.84 b -31 -96 +9 198149 BD+61 2050 3578 ETA Cep Gl 808 20 44 30 -79 29.0 1.216 144.6 +35. M2.5 11.85 +1.50 +1.03 +0.95 064.3 10.1 064.3 10.1 10.89 d -49 -75 -34 499 L 046-163 Gl 808.1 20 45 06 -44 10.3 0.211 119.3 -14.9 F1 IV 5.10 +0.35 +0.05 +0.20C 049.4 08.5 049.4 08.5 3.57 d -23 -8 -5 197937 CD-44 14145 IOT Mic NN 4163 20 46 37 +19 32.1 0.249 220. m 13.38 +1.54 +1.19 050. 10. r 11.87 d G144-039 NN 4164 20 47 04 -00 32.2 0.395 123.6 M3.5 K 13.06 +1.53 +1.13 048. 12. r 11.5 e G024-030 6 LTT 8247 Wolf 882 NN 4165 20 47 10 +37 16.9 0.229 48. +71. DA4 12.93 +0.14 -0.67 055. 06. w 11.63 c -14 +29 -5 G210-036 W261 LTT 16093 L 1576-43 LP 284-13 Gl 808.2 20 48 04 +29 11.9 0.041 149.1 -8.3 K5 V 8.41 +1.06 +0.93 053. 08. r 7.03 d -1 -9 -2 198550 BD+28 3900 NN 4166 20 48 13 +26 19.6 0.523 232.9 DC9 15.58 +0.95 +0.40 050.0 03.4 050.0 03.4 14.07 b G187-008 3589 W NN 4167 p 20 49 02 +52 42.4 0.536 32.2 K5 K 9.74 +1.32 +0.56 032.7 18.8 047. 09. r 8.10 d BD+52 2815 G231-017 3590 LTT 16100 NN 4168 20 49 59 +26 54.5 0.095 231.8 +1.0 SB G7 III CN 4.58 +0.83 +0.47 040.3 19.7 040.3 19.7 2.6 f +11 -2 +2 198809 BD+26 4017 BS 7995 NN 4169 20 51 10 +10 26.0 0.665 226.2 m 13.97 +1.73 +1.32 072.2 2.9 072.2 2.9 13.26 a G025-008 3593 USNO 764 NN 4170 20 51 32 +68 58.7 0.232 77. M3 L 11.70 +1.54 +0.86 043. 07. r 9.87 d G262-029 LTT 18506 AC+68:8102 Gl 809 20 52 18 +61 58.5 0.772 180.5 -17.0 SB M2 Ve 8.55 +1.48 +1.24 +0.82 133.5 02.6 133.5 02.6 9.18 a +23 -10 -20 199305 BD+61 2068 G231-019 3595 V199 GJ 1259 20 52 42 +12 58.8 0.676 55.2 -40.0 K3 V 8.81 +1.05 +1.05 +0.42 043.5 10.2 043. 06. r 6.98 d -84 -5 -10 BD+12 4499 G144-044 3598 V827 Gl 810 A 20 52 48 -14 13.2 1.486 107.5 M3.5 J K 12.45 +1.59 +1.26 078.9 07.8 078.9 07.8 11.94 c 501 L 856-054 Gl 810 B 20 52 47 -14 15.0 1.486 107.5 14.55 +1.72 +1.42 078.9 07.8 078.9 07.8 14.04 c 500 Gl 811 q 20 53 49 -26 29.3 0.115 121.1 -16.1 F8 V 5.70 +0.50 -0.04 +0.17 038.0 06.0 045. 05. r 3.97 c -18 -10 +1 199260 CD-26 15344 Gl 811.1 20 54 04 -10 37.6 1.155 182.8 +51.0 dM4 W 11.47 +1.51 +1.07 +1.04 056.3 05.7 056.3 05.7 10.22 c +73 -57 -60 502 AC-11:2439-179 Gl 812 A 20 54 07 -05 02.2 0.816 106.1 -44.5 M3 K 11.91 +1.51 +1.06 +1.14 063.5 04.4 063.5 04.4 10.92 b -59 -37 -29 3602 Ross 193 Gl 812 B 20 54 06 -05 02.0 0.816 106.1 DC9+ 16.60 +1.16 +0.64 +0.45 063.5 04.4 063.5 04.4 15.61 b 3601 W202 Ross 193B VB 11 Gl 812.1 s 20 54 22 -44 18.5 1.101 207.9 -9.6 G0 V 6.53 +0.58 -0.02 +0.21 053.0 09.0 050. 05. s 5.02 c +19 -94 +43 199288 CD-44 14214 503 NN 4171 20 55 03 +42 44.2 0.016 208.8 A2 9.0 * 042.4 22.2 042.4 22.2 7.1 * f BD+42 3917 AG+42:1955 SAO 50268 Gl 813 20 55 09 +22 10.4 0.779 103.0 -31.1 M3 K 12.01 +1.61 +1.22 +0.99 076.2 05.6 076.2 05.6 11.42 b -35 -31 -34 G187-009 3605 AC+22:308-605 Wolf 1373 LFT 1588 NN 4172 20 56 23 -33 48.6 0.183 146.9 K0 V 7.35 +0.84 +0.49 052. 08. r 5.93 d 199620 CD-34 14779 NN 4173 20 56 40 +34 04.8 0.329 116. M2 L 11.06 +1.46 +0.75 042. 07. r 9.18 d G210-045 LTT 16135 L 1504-126 LP 285-5 NN 4174 20 57 17 +37 44.1 0.018 147.7 K5 8.00 +1.67 +2.03 044.3 13.0 044.3 13.0 6.2 e 199957 BD+37 4131 Wo 9713 x 20 57 35 -42 13.4 0.417 87. K4 K 12.3 * 043.5 13.6 043.5 13.6 10.5 * e LTT 8318 Gl 815 A 20 58 09 +39 52.7 0.668 114.6 -33.7 SB dM3 eJ W 10.34 +1.52 J+1.07 J+0.92 J 066.1 04.5 066.1 04.5 9.44 b -18 -35 -43 G210-048 3609 V200 AC+39:57322 F 54 V(AB) = 10.12 d(m) = 1.9 : SBO in A&A 200, 135 Gl 815 B 20 58 09 +39 52.7 0.668 114.6 11.9 * 066.1 04.5 066.1 04.5 11.0 * b sep 0.9" 82d Wo 9714 p 20 58 35 -32 43.2 0.20 :114. K5 V 9.40 +1.24 +1.21 +0.54 026.1 17.0 048. 08. r 7.81 d 199981 CD-33 15343 V828 LTT 8325 NN 4175 20 59 10 +20 32.1 0.538 223.8 m 14.1 * +1.21 040. 08. r 12.1 * d G144-050 3610 NN 4176 A 20 59 13 +33 02.8 0.356 113. m 12.29 +1.08 059. 08. r 11.14 c G187-013 LTT 16147 L 1504-143 LP 340-547 NN 4177 B 20 59 17 +33 02.7 0.356 113. m 13.12 +1.19 059. 08. r 11.97 c G187-014 LTT 16148 L 1504-142 LP 340-548 sep 57" 95d Gl 816 20 59 20 -06 30.6 0.515 201.9 M2.5 K 11.23 +1.49 +1.04 080.3 08.5 080.3 08.5 10.75 c 3612 LTT 8338 Wolf 906 opt. comp. sep 6.5" 313.5d Wo 9716 20 59 30 -57 09.3 0.499 317.3 M4 S 12.85 +1.65 +1.36 +1.17t 044.5 17.0 064. 14. r 11.88 d 5363 LTT 8340 L 211-59 GJ 2151 Sm 70 NN 4178 20 59 43 -50 34.4 0.500 141.6 m 13.1 * +1.18 057. 11. r 11.9 * d 3615 LTT 8344 L 280-19 Gl 816.1A 21 00 53 +45 41.1 0.422 69.5 -13.6 K25 V 7.68 +0.97 +0.78 045.8 04.8 045.8 04.8 5.98 c -39 -12 -20 200560 BD+45 3371 G212-017 Gl 816.1B 21 00 53 +45 41.1 0.422 69.5 13.0 * 045.8 04.8 045.8 04.8 11.3 * c Gl 816.2A 21 01 34 -20 03.2 0.050 225.2 +23.8 A5 V 5.10 +0.17 J+0.08 J+0.10CJ 053.5 12.6 053.5 12.6 3.7 e +19 +6 -13 200499 BD-20 6115 ETA Cap V(AB) = 4.84 d(m) = 1.4 Gl 816.2B 21 01 34 -20 03.2 0.050 225.2 6.5 * 053.5 12.6 053.5 12.6 5.1 * e sep 0.370" 134.8d (1985.49) Gl 817 21 02 09 -17 07.8 2.251 206.3 -47. M2 K 11.46 +1.47 +1.08 +0.84 057.5 07.8 057.5 07.8 10.26 c +72 -173 +40 61 Ross 769 Gl 818 21 02 51 +06 52.6 0.572 172.5 -65.7 K6 V 8.30 +1.22 +1.16 +0.50 058.6 08.3 058.6 08.3 7.14 d -12 -79 +0 200779 BD+06 4741 G025-016 3624 V831 NN 4179 21 02 56 -17 06.8 K7 s 10.33 +1.42 +1.17 +0.66 047. 07. r 8.69 d BD-17 6172 Steph 1853 NN 4180 21 03 26 +04 13.8 0.217 140. m 12.18 +1.49 +1.14 +1.03 043.1 04.2 043.1 04.2 10.35 c LP 576-34 Gl 818.1A 21 04 11 -73 22.3 0.550 127.6 -10.1 G3 IV J 6.4 * +0.59 J+0.10 J+0.22 J 041.7 14.1 041.7 14.1 4.5 * e -55 -26 -18 200525 CP-73 2192 3635 V(ABC) = 5.68 d(m) = 0. ? Gl 818.1B 21 04 11 -73 22.3 0.550 127.6 6.4 * 041.7 14.1 041.7 14.1 4.5 * e comp B uncertain, sep 0.2"? Gl 818.1C 21 04 11 -73 22.3 0.550 127.6 13.5 * 041.7 14.1 041.7 14.1 11.6 * e sep(AB-C) 8.1" 136d - 7.9" 131d (1901-1931) Gl 819 A 21 04 24 -14 07.4 0.392 93.9 -34.0 K1 Ve 7.15 +0.90 J+0.58 J+0.32 J 068.1 11.2 068.1 11.2 6.32 d -40 -17 -1 200968 BD-14 5936 U514 Gl 819 B 21 04 24 -14 07.4 0.392 93.9 M0 K 10.2 * 068.1 11.2 068.1 11.2 9.4 * d Gl 820 A 21 04 40 +38 30.0 5.220 52.4 -64.8 K5 Ve 5.21 +1.18 +1.11 +0.47 288.7 01.9 288.7 01.9 7.51 a -92 -54 -9 201091 BD+38 4343 62 61 Cyg Gl 820 B 21 04 40 +38 30.0 5.220 52.4 -64.3 K7 Ve 6.03 +1.37 +1.23 +0.60 288.7 01.9 288.7 01.9 8.33 a -92 -54 -9 201092 BD+38 4344 63 Gl 820.1 21 05 12 -82 01. 0.37 167. -57. DA6 13.56 +0.25 -0.60 057.9 06.3 057.9 06.3 12.37 c -75 +44 +61 W142 LTT 8381 L 24-52 BPM 1266 Wo 9720 21 05 42 -21 23.7 0.061 160.1 -12.0 A0 V 5.30 -0.00 -0.03 044.7 11.9 044.7 11.9 3.6 e -8 -10 +4 201184 BD-21 5933 NN 4181 s 21 05 49 +24 58.5 0.157 187.6 -4.1 dK8 M 9.88 +1.16 +1.05 +0.46 041.7 07.7 032. 04. r 7.41 c +16 -13 -11 BD+24 4329 V333 LTT 16183 Wo 9721 A 21 06 08 -04 37.8 0.058 281.0 +11. dM2 W 9.44 +1.13 +1.00 +0.50 044.6 07.6 044.6 07.6 7.69 d +10 +8 -1 BD- 5 5480 V332 BDS10765A Wo 9721 B 21 06 08 -04 37.8 0.058 281.0 13.40 +1.63 +1.11 044.6 07.6 044.6 07.6 11.65 d V332 BDS10765B sep. 25" Gl 821 21 06 30 -13 28.7 2.096 160.1 -61. M3 W 10.87 +1.50 +1.10 +0.86 091.7 10.3 091.7 10.3 10.68 c -30 -118 -24 65 Wolf 918 Wo 9722 s 21 06 44 +59 32.1 2.098 208.7 -260.0 SB sdM1 13.30 +1.55 041.7 02.6 041.7 02.6 11.40 b +264 -215 -92 G231-027 64 LFT 1608 Wo 9723 x 21 07 01 +46 57.3 0.497 119.6 K3 K 10.78 +0.95 +0.70 039.7 20.5 039.7 20.5 8.8 f G212-024 5365 LFT 1609 Wo 9724 21 08 29 -43 48.0 0.713 163.6 M1 K 12.01 +1.56 +0.96 042.4 08.2 042.4 08.2 10.15 d CD-44 14334 3639 LFT 1610 LTT 8406 Sm 74 Wo 9725 s 21 08 34 +80 35.3 0.310 62. K5 K 10.84 +1.26 +1.27 +0.57t 040.4 13.6 028. 05. r 8.08 d G261-037 LTT 18514 AC+80:5262 NN 4182 21 08 47 +29 13.3 0.361 220. M1 K 11.05 +1.34 +1.22 +0.87 053. 11. r 9.67 d G187-029 LTT 16206 Ross 824 Wo 9726 s 21 09 01 -40 28.3 0.228 163.1 +6.3 F7 V 5.83 +0.45 +0.01 040.6 06.9 036. 04. r 3.61 c -1 -29 -11 201647 CD-40 14216 LTT 8410 NN 4183 q 21 09 24 +45 15.3 0.399 220.1 K2 K 7.83 +0.78 +0.42 029.6 08.8 039. 07. r 5.79 d 201924 BD+44 3728 G212-028 LTT 16209 GJ 2152 21 11 00 +07 13.7 0.363 70. f 16.17 +0.45 -0.36 041.6 05.6 041.6 05.6 14.27 c G025-020 W LTT 16218 pos(NLTT??) Gl 822 A 21 12 03 +09 48.2 0.307 175.3 -15.8 SB F7 V 5.11 +0.50 J-0.01 J+0.18tJ 053.3 05.3 053.3 05.3 3.74 c +7 -29 -10 202275 BD+09 4746 BS 8123 ADS 14773 DEL Equ V(AB) = 4.49 d(m) = 0.29 Gl 822 B 21 12 03 +09 48.2 0.307 175.3 F7 V 5.4 * 053.3 05.3 053.3 05.3 4.0 * c a = 0.26" P = 5.70 yr Gl 822.1A 21 12 48 +37 49.9 0.465 20.0 -23.1 VAR F0 IV 3.82 +0.38 +0.03 +0.14 J 051.4 04.1 051.4 04.1 2.37 b -42 -16 +20 202444 BD+37 4240 6 TAU Cyg Gl 822.1B 21 12 48 +37 49.9 0.465 20.0 G0 V 6.42 +0.60 +0.09 051.4 04.1 051.4 04.1 4.97 b Gl 822.1C 21 12 47 +37 48.4 0.463 019.8 M3 K 12.00 +1.53 +1.14 +1.04 051.4 04.1 051.4 04.1 10.55 b G211-014 L 1577-019 NN 4184 21 13 00 +25 35.4 0.314 147. m 12.13 +1.06 059. 12. r 10.98 d G187-033 LTT 16234 L 1433-38 LP 397-41 Gl 822.2 21 13 45 +25 13.5 0.077 242.0 -26.6 G5 V 6.99 +0.89 +0.49 +0.36 069. 15. r 6.18 d -2 -25 +9 202573 BD+24 4357 NN 4185 A 21 13 56 +29 39.3 0.217 77. m 12.68 +1.22 065. 09. r 11.74 d LTT 16240 Ross 776 NN 4186 B 21 13 54 +29 39.2 0.217 77. m 13.49 +1.23 065. 09. r 12.55 d LP 341-14 sep 26" 259d Gl 824 21 14 05 +09 11.1 0.184 130.2 -18.3 dK8 M 7.95 +1.02 +0.84 +0.40 068.4 10.9 061. 07. r 6.88 c -11 -20 -5 202575 BD+08 4638 V833 Gl 825 21 14 20 -39 03.7 3.453 250.8 +28.2 M0 Ve 6.67 +1.41 +1.21 +0.69 258.6 10.4 258.6 10.4 8.73 a +63 -19 +23 202560 CD-39 14192 66 U518 Gl 825.1 21 14 47 -61 33.4 0.659 133.6 -19.6 G5 V 6.60 +0.68 +0.25 +0.24 046.6 08.4 046.6 08.4 4.94 d -58 -38 -11 202457 CP-61 6537 3652 NN 4187 A 21 14 55 -09 06.7 M1 s 12.11 +1.52 +1.19 +1.02 042. 06. r 10.23 d Steph 1876 NN 4188 B 21 14 58 -09 07.4 13.33 +1.08 042. 06. r 11.45 d NN 4189 A 21 15 05 +20 41.0 0.420 47. M3 K 12.47 +1.09 J 049. 09. r 10.92 d G145-031 LTT 16245 Ross 773 V(AB) = 12.23 d(m) = 1.5 NN 4190 B 21 15 05 +20 41.0 0.420 47. M4 K 14. * 049. 09. r 12. * e LTT 16246 sep 4" 173d (NLTT) Gl 825.2 21 15 11 -43 32.7 0.246 86.0 +10.7 G5 V 6.75 +0.63 +0.14 +0.33C 045.9 10.2 043. 08. r 4.92 d -11 +1 -27 202628 CD-43 14464 Gl 825.3 21 15 28 -00 02.8 0.496 111.4 -26.9 dK6 W 8.22 +0.98 +0.83 +0.40 047.5 05.0 047.5 05.0 6.60 c -38 -32 -27 202751 BD-00 4195 G025-025 5368 V834 NN 4191 21 15 48 -56 03.0 0.450 114. DA6 14.28 +0.26 -0.59 045. 05. w 12.55 c W LTT 8452 L 212-19 BPM 27273 WD2115-560 Wo 9732 21 15 54 -67 51.9 0.411 284.8 m 10.90 +1.45 +0.83t 049.1 23.9 055. 10. r 9.60 d LTT 8456 L 117-123 AC-68:3972-162 Wo 9733 A 21 16 19 -53 39.6 0.114 123.1 -14.5 A5 V 4.50 +0.19 J+0.12 J 041.9 11.9 041.9 11.9 2.6 e -19 -4 +3 202730 CP-53 10037 BS 8140 V(AB) = 4.39 d(m) = 2.40 Wo 9733 B 21 16 18 -53 39.6 0.121 127.0 -7.2 A7 V 6.9 * 041.9 11.9 041.9 11.9 5.0 * e -14 -7 -2 sep 6.0" 275d (1957) Gl 825.4A 21 16 52 -26 33.6 0.643 236.8 -17.2 SB G5 V 6.63 +0.73 J+0.23 J+0.29 J 056.5 06.5 056.5 06.5 5.39 c +26 -32 +39 202940 CD-26 15541 3655 Gl 825.4B 21 16 52 -26 33.6 0.643 236.8 -21.2 dG6 W 9.6 * 056.5 06.5 056.5 06.5 8.4 * c +23 -33 +41 3656 Gl 826 21 17 23 +62 22.4 0.158 70.5 -11.5 A7 IV-V 2.44 +0.22 +0.11 +0.02 067.0 08.0 067.0 08.0 1.57 c -8 -12 -7 203280 BD+61 2111 ALF Cep GJ 1261 21 17 23 +53 59.8 0.240 333. DA 12.33 +0.07 -0.67 050.9 06.2 050.9 06.2 10.86 c G231-040 W378 Wo 9735 x 21 17 23 -51 15.4 0.24 126. +22.2 G5 10.64 +0.81 +0.36 +0.42C 044.1 10.2 044.1 10.2 8.9 e -1 -19 -28 CD-51 12903 LTT 8473 Gl 826.1 21 17 25 -20 03.3 0.744 193.6 +15.6 K5 V 9.12 +1.35 +1.26 +0.61 047.6 07.1 047.6 07.1 7.51 d +42 -61 -16 203040 BD-20 6185 3657 V201 GJ 1262 21 20 19 -68 26.7 0.221 43.2 +11.5 G5 V 6.97 +0.73 +1.79c 048. 06. r 5.38 c +1 +9 -23 203244 CD-68 2223 LTT 8497 Gl 826.2 s 21 20 52 -46 55.2 0.738 96.7 M2 K 12.46 +1.56 +0.96 052.6 13.6 038. 08. r 10.36 d 3666 L 353-143 Sm 78 NN 4192 21 21 52 +08 17.3 0.257 228. m 13.64 +1.15 040. 08. r 11.65 d G093-006 Gl 827 21 22 20 -65 35.6 0.805 6.7 -29.4 F8 V 4.22 +0.49 -0.12 +0.20 115.5 13.1 115.5 13.1 4.53 c -13 +42 +6 203608 CP-65 3918 3674 GAM Pav NN 4193 21 23 00 -42 39. 0.087 340. M7 S 12.67 +1.53 +1.09t 049. 11. r 11.12 d Sm 79 BPM 43997 Gl 827.1 s 21 23 18 -56 20.7 0.693 79.0 -40.5 K3 V 8.66 +0.92 +0.62 +0.36 043.1 10.9 036. 06. r 6.44 d -89 +24 -38 203850 CP-56 9645 3675 U524 Gl 828 A 21 23 45 -45 01.7 0.314 55.7 +8.2 K0 V 7.48 +0.91 +0.71 +0.42C 067.0 10.2 067.0 10.2 6.61 d -7 +11 -19 203985 CP-45 10150 Gl 828 B 21 23 36 -45 01. 0.31 54. m 14.1 P 067.0 10.2 067.0 10.2 13.2 P d L 353-009 Gl 828.1 21 24 11 +03 31.2 0.09 229. -4.7 dM1 W 10.52: +1.38: +1.2 : +0.67 052.6 10.1 052.6 10.1 9.12: d +5 -7 +4 V070 AC+03:2561-36 Gl 828.2 21 24 38 -07 03.4 0.411 180. M0 K 11.10 +1.55 +1.17 +0.78 053.6 10.2 053.6 10.2 9.75 d G026-002 AC-07:388-38 NN 4194 21 24 40 +70 15.6 0.034 35.2 G5 7.28 041. 05. o 5.34 c 204521 BD+69 1169 NN 4195 21 25 19 +07 05.4 0.653 199.2 M0.5 K 11.60 +1.56 +1.22 +0.85 040.3 05.9 040.3 05.9 9.63 d G025-032 3677 LTT 16274 Ross 778 NN 4196 21 25 28 +33 48.5 0.322 233. m 11.15 +0.82 047. 08. r 9.51 d G188-001 LTT 16275 L 1506-10 LP 286-3 NN 4197 21 25 28 -22 31.4 0.312 219. M4 s 12.21 +1.56 +1.03 053. 10. r 10.83 d LTT 8526 L 714-46 LP 873-4 Gl 828.4 s 21 25 45 +10 23.5 0.119 78.4 -14.1 K2 K 8.73 +0.86 +0.60 050.7 11.9 030. 05. r 6.12 d -21 -10 -4 204417 BD+09 4821 Gl 828.5 21 26 43 +73 25.9 0.300 170. +8. DA4 12.80 +0.02 -0.66 048.8 02.2 048.8 02.2 11.24 a +26 -21 -33 G261-043 W144 LTT 18524 AC+73:8031 Gl 829 21 27 12 +17 25.1 1.058 069.8 -24.9 dM4 e W 10.30 +1.63 +1.28 +1.15 147.8 02.6 147.8 02.6 11.15 a -38 -17 -5 G126-004 508 AC+17:534-105 Gl 830 21 27 16 -12 43.6 1.059 104.5 -84.1 M0 V 9.10 +1.28 +1.24 +0.55 063.6 09.2 063.6 09.2 8.12 d -97 -62 -4 204587 BD-13 5945 509 V202 NN 4198 21 27 36 -40 55.4 1.730 143.7 M3 K 13.19 +1.62 +1.12 +1.25 062. 15. r 12.2 e 510 LTT 8542 L 425-35 Gl 831 A 21 28 34 -10 00.6 1.194 090.8 -56.7 dM4.5e W 12.05 +1.67 J+1.18 J+1.33 J 125.6 04.5 125.6 04.5 12.54 a -64 -33 +5 G026-007 511 Wolf 922 V(AB) = 11.97 d(m) = 2.83: Gl 831 B 21 28 34 -10 00.6 1.194 090.8 14.9 * 125.6 04.5 125.6 04.5 15.4 * b G026-007 Wolf 922 sep 0.218" 157d A&AS 71, p 57 NN 4199 21 28 45 +23 07.0 0.205 140.8 -23.0 dK8 M 9.25 +1.05 +0.80 +0.50 040.7 06.2 040.7 06.2 7.30 d -5 -29 -14 BD+22 4409 G145-043 V890 NN 4200 21 28 54 -09 57.9 0.171 225.5 G0 7.41 058. 06. o 6.23 c 204848 BD-10 5696 NN 4201 21 30 06 +24 20.4 0.233 95. m 12.66 +1.22 081. 15. r 12.20 d LP 397-34 Gl 832 21 30 14 -49 13.2 0.828 184.8 +4.1 M1 V 8.67 +1.47 +1.05 +0.93 215.0 06.1 215.0 06.1 10.33 a +3 -18 +1 204961 CP-49 11439 3685 U529 L 354-89 CD-49:13515 Sm 83 NN 4202 21 31 10 -07 04.2 0.519 167.7 M3.5 K 14.01 +1.58 +1.33 060. 16. r 12.9 e G026-013 3689 LTT 8582 Wolf 923 NN 4203 A 21 31 16 +01 34.3 0.669 180.5 dM 13.35 +1.68 +1.22 068.6 08.0 068.6 08.0 12.53 c G026-014 3686 LTT 16303 NN 4204 B 21 31 16 +01 34.3 0.669 180.5 m 14.5 * +1.29 068.6 08.0 068.6 08.0 13.7 * c 3688 LP 638-66 NN 4205 21 33 05 +51 18.4 0.587 59.7 M3.5 K 11.78 +1.46 +1.06 070. 17. r 11.0 e G215-002 3693 LTT 16311 LFT 1644 Wolf 926 Gl 833 21 33 17 -51 04.1 0.473 115.0 +28.1 K2 V 7.14 +0.88 +0.57 +0.30 076.6 11.1 076.6 11.1 6.56 d -2 -19 -36 205390 CD-51 12998 NN 4206 21 34 00 -63 57.0 0.157 261. M2 S 10.62 +1.44 +0.85t 065. 13. r 9.68 d BPM 14175 Sm 85 Gl 834 A 21 34 38 +39 14.0 0.263 233. dM0 M 10.34 +1.42 J+1.1 :J+0.77 J 049.8 04.2 049.8 04.2 8.83 b G212-048 V836 LP 286-6 AC+39:60670 V(AB) = 10.18 d(m) = 2.0 Gl 834 B 21 34 38 +39 14.0 0.263 233. 12.3 * 049.8 04.2 049.8 04.2 10.8 * b LP 286-5 sep 3" 295d (NLTT) NN 4207 21 35 38 -33 52.8 1.190 116.5 M2 K 12.57 +1.62 +1.33 +1.18 057. 21. r 11.3 f 512 LTT 8614 L 570-29 Gl 835 21 35 45 +27 29.9 0.430 93. -13.3 M0 e K 9.88 +1.50 +1.26 +0.81 080.8 02.6 080.8 02.6 9.42 a -20 -15 -13 BD+27 4120 G188-009 V203 Gl 835.1 21 36 00 -77 36.8 0.243 167.5 +34.4 SB K0 III 3.75 +1.00 +0.89 +0.46C 051.5 10.2 051.5 10.2 2.31 d +9 -38 -13 205478 CP-77 1510 NU Oct NN 4208 21 36 06 +52 51.3 0.296 70. M0 K 10.60 +1.41 +0.70 047. 09. r 8.96 d BD+52 2996 G231-051 LTT 16322 Gl 836 21 36 06 -24 22.5 1.208 124.4 +36. M3.5 K 13.43 +1.56 +1.04 +1.24 071.7 11.2 071.7 11.2 12.71 d -16 -37 -78 513 L 714-088 Gl 836.1 21 36 15 -27 31.9 0.397 101.2 -17.6 G4 IV-V 6.73 +0.62 +0.16 +0.32C 045.4 07.8 045.4 07.8 5.02 d -40 -15 -15 205905 CD-27 15550 NN 4209 q 21 37 19 -16 53.4 0.189 96.5 -31.2 SB F0 p 3.68 +0.32 +0.20 028.2 07.4 028.2 07.4 0.9 e -40 -19 +0 206088 BD-17 6340 A7MF3 (III)P(SR) Mich NN 4210 21 37 40 +27 23.3 0.350 130. M3: L 11.62 +0.94 053. 10. r 10.24 d G188-014 LTT 16329 L 1434-37 LP 342-8 NN 4211 21 38 41 -01 00.2 0.262 81. m 12.57 +1.56 +1.19 052. 24. r 11.2 f G026-023 LTT 8642 L 1002-29 LP 638-23 Wo 9747 s 21 38 47 +53 46.6 0.414 075.4 M3.5 K 14.1 * 042.9 13.6 042.9 13.6 12.3 * e G232-028 6 LTT 16338 LFT 1653 Gl 836.3 21 39 02 -41 21.0 0.353 145.6 +57.8 K5 V 8.82 +1.04 +0.90 +0.42 051.1 13.6 045. 07. r 7.09 d +24 -32 -56 206276 CP-41 9682 U534 Gl 836.4 p 21 39 25 -12 23.0 0.695 173.7 M1.5: K 12.80 +1.48 +1.07 032.0 04.9 032.0 04.9 10.33 d 3702 Ross 206 NN 4212 21 39 46 +27 27.6 0.307 259. m 13.97 +1.21 043. 08. r 12.14 d G188-019 LP 342-14 Gl 836.5 21 40 22 +20 46.7 0.677 200.0 DQ6 13.24 +0.17 -0.71 079.6 08.0 079.6 08.0 12.74 c G126-027 3703 W148 LTT 16348 LFT 1655 LP 458-64 L 1363-003 NN 4213 21 41 45 +06 24.8 0.350 245. dM3 12.07 +1.53 +1.21 053. 25. r 10.7 f G093-033 Rob 526 NN 4214 A 21 41 46 +16 49.7 0.259 90. m 13.65 +1.25 057. 06. r 12.43 c G126-031 NN 4215 B 21 41 45 +16 50.8 0.259 90. m 14.81 +1.38 057. 06. r 13.59 c G126-030 sep 63" 347d Gl 836.6A 21 41 54 +28 31.0 0.376 129.3 +15.8 SB? F4 V 4.78 +0.48 J+0.01 J+0.18tJ 043.2 05.3 043.2 05.3 2.96 c -5 +3 -44 206826 BD+28 4169 MU(1) Cyg ADS 15270 V(AB) = 4.50 d(m) = 1.33 Gl 836.6B 21 41 54 +28 31.0 0.315 133.0 +23.5 SB? G2 V 6.09* 043.2 05.3 043.2 05.3 4.27* c -1 +12 -40 206827 MU(2) Cyg a = 4.278" P = 507.5 yr Gl 836.7 21 42 07 +14 32.6 0.261 116.5 -17.0 G0 V 5.94 +0.59 +0.04 066.1 10.2 066.1 10.2 5.04 d -13 -20 -8 206860 BD+14 4668 NN 4216 q 21 42 24 -06 00.7 0.438 204. M3.5 K 12.81 +1.64 +1.30 033.5 20.5 066. 23. r 11.9 f G026-027 LTT 8678 Wolf 937 Gl 836.8 21 42 30 +41 22.0 0.08 320. +9.5 dK6 W 9.63 +1.34 +1.20 +0.59 052.3 05.4 052.3 05.4 8.22 c +0 +11 +6 BD+40 4631 V071 NN 4217 21 42 48 -06 07.7 0.360 205. M3.5 K 13.54 +1.65 +1.01 049. 17. r 12.0 f G026-028 LTT 8681 Wolf 939 Gl 836.9A 21 43 02 -57 55.3 0.906 174.6 -7.0 K7 V 9.47 +1.32 J+1.15 J+0.59 J 052.1 08.5 052.1 08.5 8.05 d -20 -77 +22 206804 CP-58 7893 3707 U536 CD-58:8156 Sm 88 Fin 283 V(AB) = 8.79 d(m) = 0.15 Gl 836.9B 21 43 02 -57 55.3 0.906 174.6 K7 V 9.6 * 052.1 08.5 052.1 08.5 8.2 * d a = 0.205" P = 6.25 yr NN 4218 21 43 24 +20 33.0 0.248 97. m 14.39 +1.68 +1.28 047. 08. r 12.75 d G126-034 GJ 1263 21 44 04 -00 24.0 0.919 124.2 +39. M3.5 K 12.65 +1.61 +1.27 +1.22 081.8 05.5 081.8 05.5 12.21 b -2 -1 -66 G026-030 3708 Wolf 940 Gl 837 21 44 17 -16 21.3 0.394 138.5 -6.3 SB A6 m 2.87 +0.29 +0.09 +0.16C 068.1 16.0 068.1 16.0 2.0 e -10 -23 -13 207098 BD-16 5943 DEL Cap A5MF2 (IV) Mich GJ 1264 21 44 34 -72 19.9 0.464 132.0 M2 Ve U 9.80 +1.46 +1.16 +0.86 098. 23. r 9.8 e CD-72 1700 U538 CP-72:2640 LTT 8698 AY Ind Wo 9754 21 44 55 -40 29.0 0.372 162.7 -6.8 K3 V 8.62 +0.97 +0.77 +0.36 041.9 08.8 039. 06. r 6.58 d -11 -44 -1 207144 CD-40 14498 U540 LTT 8701 NN 4219 21 45 00 +46 24.2 0.295 89.1 M3.5 K 13.36 +1.23 059. 11. r 12.21 d G212-057 6 LTT 16369 Wolf 944 Gl 838 21 45 01 -47 31.9 0.337 150.6 -6.5 G2 V 5.58 +0.60 +0.08 +0.20 071.8 06.5 071.8 06.5 4.86 b -12 -20 +1 207129 CD-47 13928 NN 4220 21 45 26 +05 35.7 0.420 130. M1.5 K 11.79 +1.43 +1.15 +0.86 040. 08. r 9.80 d G093-039 LTT 16371 Ross 779 NN 4221 21 45 37 +01 12.8 0.232 94. m 13.87 +1.19 041. 08. r 11.93 d LP 638-040 NN 4222 21 45 44 -63 21.3 0.545 32.8 m+ 12.5 * +1.08 053. 11. r 11.1 * d 3719 LTT 8706 L 165-102 NN 4223 21 45 58 +50 00.3 0.823 57.6 M4 K 13.0 * 046. 06.8 046. 06.8 11.3 * d G212-059 3711 LTT 16375 Wolf 945 NN 4224 AB 21 46 00 -41 46.0 0.342 121. M6 S 12.2 * +1.59 J +1.10tJ 066. 15. r 11.3 * d LTT 8708 BPM 44196 L 427-34 Sm 89 V(AB) = 11.51 d(m) = 0. NN 4225 21 46 02 +27 42.3 0.708 196.2 m 11.99 +1.62 +1.21 +0.95 054.2 05.1 054.2 05.1 10.66 c G188-026 3713 Gl 838.1A 21 46 40 +05 29.4 0.550 92.4 -10.3 K3 V 8.65 +1.04 +0.92 +0.39 048.0 07.8 041.0 03.5 6.71 b -51 -16 -36 207491 BD+05 4874 G093-040 3717 Gl 838.1B 21 47 04 +05 25.0 0.504 090.7 m 14.90 +1.75 +1.19? +1.28 039.2 03.9 041.0 03.5 12.96 b G093-041 3720 Wo 9757 s 21 47 06 -11 54.9 0.425 230. +37. K5 K 10.83 +1.41 +1.25 039.0 06.8 039.0 06.8 8.79 d +62 -6 -12 G026-032 LTT 8720 NN 4226 21 48 25 -10 16.4 0.054 76.7 G0 7.50 060. 07. o 6.39 c 207687 BD-10 5774 Wo 9758 s 21 48 40 +74 45.9 0.173 39.4 +20.7 K0 8.99 +0.86 +0.53 041.3 09.0 026. 03. r 6.06 c -36 +6 +11 208002 BD+74 938 NN 4227 p 21 48 49 +12 36.4 0.653 073.1 m 13.42 +1.50 +1.10 +1.17 038.1 03.6 038.1 03.6 11.32 c G018-001 3722 Gl 838.2 s 21 49 05 +00 36.9 0.348 100.6 -29.1 K1 K 8.60 +0.83 +0.51 +0.40C 049.2 14.0 030. 05. r 5.99 d -49 -33 -21 207795 BD+00 4788 G026-034 NN 4228 21 49 23 +13 22.3 0.224 123. m 13.93 +1.32 068. 11. r 13.09 d LP 518-058 NN 4229 A q 21 49 35 -77 34.3 0.288 129.0 -10.6 K3/4 V 8.24 +1.00 +0.89 034.7 11.9 049. 08. r 6.69 d -28 -10 +2 207496 CP-77 1522 U541 LTT 8736 CD-77: 1092 NN 4230 B q 21 49 35 -77 34.3 0.288 129.0 10.5 * 034.7 11.9 049. 08. r 9.0 * d U541B sep 7.85" 306d (1980.8) NN 4231 21 49 40 +05 23.5 0.171 131. dM2 s 12.11 +1.53 +1.09 +1.09 064. 13. r 11.14 d Steph 1950 Rob 299 Gl 838.3A s 21 49 52 +42 06.8 0.343 208.5 -25.6 G8 K 7.86 +0.78 +0.32 046.1 08.5 036. 04. r 5.64 c +42 -27 -13 207966 BD+41 4291 G215-017 Gl 838.3B s 21 49 52 +42 06.8 0.343 208.5 M1 K 11.45 +1.43 +0.73 046.1 08.5 036. 04. r 9.23 c Gl 838.4 21 49 53 +02 09.4 0.331 178. DA3 12.75 +0.01 -0.77 040.4 02.5 040.4 02.5 10.78 b G093-048 W150 NN 4232 21 49 55 +27 11.5 0.806 159.4 m 14.06 +1.20 039. 07. r 12.02 d G188-028 3725 NN 4233 s 21 50 14 +39 34.0 0.442 90.5 -51.7 K2 K 8.23 +0.73 +0.28 039.3 13.6 029. 05. r 5.54 d -56 -59 -36 207992 BD+39 4694 G213-015 LTT 16388 NN 4234 s 21 50 16 +28 33.5 0.079 223.0 +19.0 VAR F5 VI-V 5.53 +0.42 -0.13 039.2 06.8 037. 05. r 3.37 c +12 +16 -7 207978 BD+28 4215 Gl 838.5 21 50 34 -13 47.3 0.311 87.4 -21.5 F1 III 5.08 +0.37 -0.05 +0.22C 045.7 10.2 045.7 10.2 3.38 d -37 -12 -4 207958 BD-14 6149 MU Cap NN 4235 21 51 06 -43 50.3 0.607 89.2 15.35 +1.36 041. 06. r 13.41 d 3728 LP 1032-23 NN 4236 21 51 32 -01 31.2 0.260 177. +113. DA6 14.41 +0.26 -0.51 051. 06. w 12.95 c +39 +25 -55 G093-053 W151 LTT 8747 L 1003-16 Gl 838.6 21 51 37 -47 14.1 0.497 219.6 +59. M1 K 11.98 +1.56 +1.17 +0.97 088.7 17.0 088.7 17.0 11.72 d +51 -24 -32 5374 L 355-062 Sm 93 Gl 839 21 51 55 +41 32.8 0.533 133.4 -48.0 dM1 W 10.35 +1.36 +1.20 +0.66 045.5 11.4 046. 09. r 8.66 d -6 -57 -45 G215-020 3727 V072 AC+41:915-440 Gl 840 21 52 32 +32 05.7 0.310 136.2 -13.8 dK0 e W 7.78 +0.92 +0.64 041.8 11.7 049. 08. r 6.23 d -4 -22 -25 208313 BD+31 4574 NN 4237 A 21 53 27 +32 48.0 0.01 315. 10.0 * 049.6 06.9 049.6 06.9 8.5 * d BD+32 4292 NN 4238 B 21 53 27 +32 48.0 0.01 315. 10.2 * 049.6 06.9 049.6 06.9 8.7 * d sep 3.4" Gl 841 A 21 53 35 -51 14.4 0.39 189. -9. M0 H 10.4 : +1.5 : +0.9 : +1.31C 068.4 09.4 068.4 09.4 9.6 : d -3 -24 +15 CD-51 13128 U635 Gl 841 B 21 53 35 -51 14.4 0.39 189. DQ7 14.68 +0.16 -0.80 068.4 09.4 068.4 09.4 13.86 c W LTT 8768 L 283-007 BPM 7606 LDS 765 WD2154-512 sep 26.6" 252d NN 4239 21 54 16 -02 08.9 1.426 64.2 dM5 14.64 +1.76 +1.42 075.0 03.2 075.0 03.2 14.02 a 516 LP 639-1 NN 4240 21 54 17 +19 32.3 0.477 194.3 M3.5 K 12.90 +1.58 +1.13 052. 14. r 11.5 e G126-044 6 LTT 16410 Ross 263 NN 4241 21 54 56 +07 53.8 0.382 76.4 M1 K 11.01 +1.50 +1.12 +0.92 055.7 05.8 055.7 05.8 9.74 c G018-008 LTT 16412 Wolf 953 NN 4242 A 21 55 56 -32 42.3 0.536 226.8 m 14.65 +1.25 042. 05. r 12.77 c 3739 LP 930-70 NN 4243 B 21 55 55 -32 40.5 0.536 226.8 m 15.8 * +1.50 042. 05. r 13.9 * c 3738 LP 930-69 sep 112" 354d Gl 842 21 55 56 -59 59.4 0.886 096.1 +13.4 M2 9.75 +1.49 +1.18 +0.81 077.2 11.5 077.2 11.5 9.19 d -35 -17 -41 CP-60 7528 3741 L 165-2 CD-60:7821 Sm 96 NN 4244 21 55 57 -61 10.3 0.102 181.7 K7 S 9.55 +1.25 +0.51t 045. 06. r 7.82 c CD-61 6651 CP-61: 6606 Sm 95 NN 4245 21 55 58 -47 00.1 M4 S 11.80 +1.47 +0.88t 042. 08. r 9.92 d CD-47 14002 CP-47: 9805 Sm 97 Wo 9763 s 21 56 42 -04 19.6 0.446 175.4 M2 : K 14.17 +1.59 +1.45 042.1 15.3 042.1 15.3 12.3 f G026-040 6 LTT 8788 NN 4246 21 57 18 +41 37.4 0.395 162. m 12.76 +1.06 044. 09. r 10.98 d G215-030 Gl 842.2 21 57 58 +75 20.9 0.226 84. -18.6 dM1 W 10.56 +1.45 +0.76 053.1 04.4 053.1 04.4 9.19 b -10 -20 -16 G263-010 V204 AC+75:8347 NN 4247 21 58 56 +28 03.9 0.394 85. m+ 12.01 +1.63 +1.08 +1.26 112.0 02.1 112.0 02.1 12.26 a G188-038 Gl 843 21 59 12 -19 43.5 0.928 085.1 M3 K 12.03 +1.59 +1.15 +1.10 080.1 06.4 080.1 06.4 11.55 b 3744 L 715-089 Gl 844 21 59 24 +16 13.4 0.430 70. -14.8 M2 V 10.62 +1.58 +1.28 +1.01 070.9 10.2 070.9 10.2 9.87 d -30 -11 -3 G126-049 AC+16:734-144 NN 4248 21 59 27 -37 19.2 0.836 105.6 M3.5 K 11.80 +1.65 +1.36 +1.17 100. 25. r 11.8 e 3746 LTT 8811 L 499-56 LP 983-71 Gl 845 21 59 33 -56 59.6 4.700 122.9 -40.4 K5 Ve 4.69 +1.06 +0.99 +0.40 288.9 06.1 288.9 06.1 6.99 a -78 -38 +4 209100 CP-57 10015 67 U544 EPS Ind Gl 846 21 59 39 +01 09.7 0.532 241.0 +18.5 M0.5 V 9.18 +1.48 +1.21 +0.75 098.9 03.8 098.9 03.8 9.16 a +31 +6 -4 209290 BD+00 4810 G018-016 3745 V335 NN 4249 21 59 52 -50 52.8 0.581 147.7 M4 S 12.09 +1.57 +0.96 047. 09. r 10.45 d 3748 LTT 8822 L 283-3 Sm 100 Gl 847 A s 21 59 55 -70 09.9 0.632 097.2 -9.1 m 10.97 +1.38 +0.60 051.1 21.6 029. 03. r 8.28 c -89 -22 -49 3751 AC-71:462-64 Gl 847 B s 21 59 55 -70 09.9 0.632 097.2 m 13.70 +1.61 +1.02 051.1 21.6 029. 03. r 11.01 c L 118-272 NN 4250 x 22 01 00 +01 21.8 0.032 129. 10.34 +0.73 +0.29 043.2 08.9 043.2 08.9 8.52 d no 18 in AJ 84 p567: AC+01:2189-92 NN 4251 22 02 01 +67 15.6 0.568 121.0 m 13.41 +1.15 044. 09. r 11.63 d G264-017 3749 NN 4252 22 02 34 +04 53.5 0.488 74.4 M3 K 13.60 +1.51 +0.98 +1.20 041. 10. r 11.7 e G018-025 5379 LTT 16456 Wolf 983 NN 4253 22 02 53 -38 30.3 0.784 131.0 M3.5 K 12.45 +1.02 049. 09. r 10.90 d 3756 LTT 8846 L 499-75 LP 983-87 NN 4254 22 03 13 -12 08.9 0.293 242. K7 K 10.15 +1.45 +0.72 057. 12. r 8.93 d BD-12 6174 LTT 8848 NN 4255 22 03 28 +78 02.1 0.265 75. m 15.87 +1.80 +1.64 040. 15. r 13.9 f G263-011 LP 27-9 Gl 847.1 s 22 03 38 -45 38.0 0.477 123.6 -23.4 K2 V 8.43 +0.85 +0.55 +0.30 046.8 19.7 033. 05. r 6.02 d -57 -44 -9 209742 CD-45 14576 NN 4256 22 03 53 +39 03.7 0.471 173.4 m 12.69 +1.05 044. 09. r 10.91 d G189-001 6 NN 4257 22 04 13 +03 10.7 0.601 125.7 M4 K 13.60 +1.60 +1.35 +1.22 053. 12. r 12.22 d G018-031 3760 LTT 16471 Wolf 990 NN 4258 AB 22 04 25 +65 23.9 0.393 308. M1.5 K 11.62 +1.55 +0.90 048. 10. r 10.03 d G264-018 LTT 16470 J?? Gl 848 22 04 41 +25 06.0 0.300 84.5 -5.5 SB F5 V 3.76 +0.44 -0.04 079.9 06.0 079.9 06.0 3.27 b -16 -7 -7 210027 BD+24 4533 IOT Peg Gl 848.1A s 22 04 55 -51 27.7 0.36 112. -38.0 K7 S 10.51 +1.21 +0.59C 047.4 11.9 027. 03. r 7.67 c -69 -25 +1 CD-51 13182 LTT 8866 L 283-8 Sm 101 Gl 848.1B s 22 04 34 -51 21.7 0.36 112. m 12.51 +1.51 +1.14C 047.4 11.9 027. 03. r 9.67 c L 283-009 sep (A-BC) 408" 331d (NLTT) Gl 848.1C s 22 04 33 -51 21.9 0.36 112. m 13.42 +1.49 +1.29C 047.4 11.9 027. 03. r 10.58 c L 283-010 sep (B-C) 11" 214d (NLTT) Gl 848.2 22 05 05 -47 12.2 0.197 138.2 +10.9 B5 V 1.74 -0.13 -0.47 -0.07C 039.8 10.0 039.8 10.0 -0.3 e -5 -21 -15 209952 CD-47 14063 ALF Gru Gl 848.4 22 06 52 -07 47.3 0.455 169.5 -21.4 G8 IV 6.55 +0.75 +0.36 +0.25 053.9 22.2 053.9 22.2 5.2 f +2 -45 -3 210277 BD-08 5818 Gl 849 22 07 00 -04 53.2 1.037 091.5 -14.8 dM3.5 W 10.37 +1.51 +1.13 +1.10 114.4 03.7 114.4 03.7 10.66 a -40 -17 -15 BD-05 5715 G027-016 517 V073 Gl 849.1 22 07 13 -32 47.7 0.431 88.0 -14.6 F6 V 4.92 +0.48 +0.01 +0.26C 052.3 16.2 059. 07. r 3.77 c -36 -7 -8 210302 CD-33 15941 TAU Psa NN 4259 22 07 21 +14 14.8 0.351 46. DA6 15.66 +0.23 -0.54 039.7 04.4 039.7 04.4 13.65 c G018-034 W302 LTT 16482 PG NN 4260 s 22 07 34 +40 47.1 0.452 59.3 k-m 12.57 +1.49 044.4 03.3 044.4 03.3 10.81 b G214-012 6397 Wo 9771 22 07 41 +05 57.1 0.276 83.4 -7.9 A2 V 3.53 +0.08 +0.10 048.1 08.0 048.1 08.0 1.94 d -26 -8 -9 210418 BD+05 4961 LTT 16484 NN 4261 22 07 56 +19 22.3 0.128 135.9 +21.3 G0 V 6.18 +0.69 +0.17 058. 09. r 5.00 d +2 +13 -19 210460 BD+18 4946 NN 4262 22 08 37 -02 47.4 0.408 101. k-m 12.14 +1.56 +1.25 063. 29. r 11.1 f G027-017 LTT 8900 L 1003-48 LP 699-52 Gl 850 22 09 01 +36 00.8 0.249 173.6 -18.3 K0 H 7.24 +0.79 +0.46 049.9 10.2 051. 07. r 5.78 c +12 -23 -14 210667 BD+35 4725 G214-013 Gl 851 22 09 05 +18 10.6 0.383 058.9 -51.4 dM2 e W 10.22 +1.50 +1.15 +0.96 082.5 02.8 082.5 02.8 9.80 a -31 -41 +22 G126-061 6 V074 AC+17:536-125 Ross 271 LFT 1691 Wo 9773 22 10 06 +08 18.8 0.681 172.2 M3 K 12.00 +1.56 +1.22 +1.04 042.5 13.8 061. 15. r 10.9 e G018-036 3773 LTT 16502 LFT 1693 Wolf 1014 NN 4263 22 10 48 -14 59.6 0.409 231. M3.5 K 13.34 +1.51 +1.12 041. 10. r 11.4 e LTT 8914 Wolf 1556 GJ 1265 22 10 56 -17 55.8 0.887 111.7 +24. m 13.57 +1.73 +1.48: +1.33 095.8 04.4 095.8 04.4 13.48 b -16 -13 -46 3776 NN 4264 22 11 16 +25 43.3 0.26 :136. m 13.62 +1.20 048. 09. r 12.03 d G188-047 L 1436-28 LP 399-165 NN 4265 22 11 22 +05 01.7 0.246 105. dM2 11.79 +1.49 +0.87 041. 07. r 9.85 d LTT 16505 Wolf 1019 Rob 314 V-I = 1.99 Robertson Gl 851.2 22 11 36 -41 37.2 0.981 144.0 -18.8 G5 V 6.23 +0.65 +0.14 +0.22 042.1 08.5 055. 09. r 4.93 d -42 -76 -5 210918 CD-41 14804 3782 Wo 9775 x 22 11 46 -08 59.1 0.608 188.9 -18.0 K2 K 11.85 +0.37 051.3 22.9 051.3 22.9 10.4 f +23 -54 -1 3780 LTT 8920 LFT 1697 Wolf 1332 Gl 851.3 p 22 11 56 -16 03.7 0.354 180.7 +11.9 G8 V 6.54 +0.90 +0.57 +0.33 034.3 07.5 083. 13. r 6.14 d +13 -13 -14 211038 BD-16 6046 LTT 8921 Gl 851.4 x 22 12 13 +56 52.3 0.12 70. -0.6 K0 9.83 +0.72 +0.23 048.0 15.3 048.0 15.3 8.2 e -11 -3 -3 BD+56 2737 Gl 851.5 p 22 12 14 +27 35.9 0.569 333.4 +17. dM0.5 W 10.35 +1.46 +0.66 036.7 11.9 046. 09. r 8.66 d -8 +39 +46 G127-011 3781 V206 AC+27:66379 NN 4266 22 13 12 +56 47.9 0.443 83. -1.4 F0 IV 4.19 +0.28 +0.04 041.4 05.9 041.4 05.9 2.28 d -44 -11 -23 211336 BD+56 2741 LTT 16515 NN 4267 22 13 59 +65 58.3 0.229 1. m 12.90 +1.17 060. 12. r 11.79 d G264-022 NN 4268 A 22 14 01 +54 25.3 0.221 67.1 -7.0 K1 V 7.51 +0.81 +0.39 047. 07. r 5.87 d -20 -11 -4 211472 BD+53 2831 G232-061 LTT 16519 ADS15797 NN 4269 B 22 14 10 +54 24.9 0.222 76. m 14. * 047. 07. r 12. * e G232-062 sep 78" 106d NN 4270 q 22 14 31 -48 54.0 0.230 116.9 K3 V 8.42 032.1 13.6 032.1 13.6 6.0 f 211369 CD-49 13794 LTT 8937 CP-49:11578 Gl 852 A 22 14 42 -09 03.0 0.537 239.1 +54.0 dM4.5e W 13.4 +1.7 +1.2 +1.27 098.1 03.3 098.1 03.3 13.4 b +45 +21 -33 3787 Wolf 1561 Gl 852 B 22 14 42 -09 03.0 0.537 239.1 dM5 e W 14.4 +1.9 +1.8 +1.46 098.1 03.3 098.1 03.3 14.4 b 3788 Gl 852.1 s 22 14 53 +15 06.6 0.226 105. m 13.55 +1.54 +1.24 051.9 13.6 051.9 13.6 12.1 e MWC 412-76 SA 90: 166 NN 4271 22 14 58 -36 25.9 0.554 167.6 14.2 * +1.24 043. 08. r 12.4 * d 3789 LP 984-2 Gl 853 A 22 15 00 -53 52.1 0.778 145.9 -13.5 G1 V 5.39 +0.60 J+0.08 J+0.22 J 082.4 10.9 082.4 10.9 4.97 c -27 -37 +7 211415 CP-54 10055 3790 BS 8501 V(AB) = 5.37 d(m) = 4.5 Gl 853 B 22 15 00 -53 52.1 0.778 145.9 9.9 * 082.4 10.9 082.4 10.9 9.5 * c sep 2.3" 16d - 3.4" 32d (1900-1959) GJ 1266 22 15 04 +70 41.5 0.929 092.9 k 12.12 +1.47 +0.92 044.5 02.3 044.5 02.3 10.36 b G241-001 3783 Gl 854 22 15 08 +68 05.4 0.372 88.6 -3.8 dK6 W 9.23 +1.15 +1.07 047.7 07.3 047.7 07.3 7.62 d -29 -11 -20 BD+67 1424 G241-002 NN 4272 22 16 31 -28 38.2 0.896 106.1 m 14.80 +1.32 045. 07. r 13.07 d 3793 LP 931-40 NN 4273 22 18 00 -65 46. 0.236 339. M5 S 11.98 +1.56 +0.99t 053. 11. r 10.60 d LTT 8978 L 119-33 BPM 14722 Sm 105 R-I = 1.27 Weistrop Wo 9779 22 19 04 -01 38.4 0.130 84.9 -25.6 SB A0 V 3.84 -0.05 -0.12 044.3 07.7 044.3 07.7 2.07 d -20 -18 +11 212061 BD-02 5741 GJ 1267 22 19 04 -54 49.0 0.293 322.6 M0 V 9.06 +1.35 +1.17 +0.60 075. 14. r 8.44 d 211970 CD-55 9073 U556 LTT 8985 BPM 27793 Gl 855 22 20 13 -57 28.1 0.694 116.7 -20. M3 S 10.74 +1.50 +1.16 +0.81 056.8 06.5 056.8 06.5 9.51 c -54 -29 -3 CD-57 8545 3802 Sm 107 Gl 855.1A p 22 20 22 -72 30.0 1.477 117.6 +25.2 G0 V J 5.98 +0.65 J-0.06 J+0.28 J 033.5 07.4 070. 11. r 5.21 d -66 -69 -39 211998 CP-72 2690 520 NU Ind BS 8515 V(AB) = 5.28 d(m) = 0.1 Gl 855.1B p 22 20 22 -72 30.0 1.477 117.6 6.1 * 033.5 07.4 070. 11. r 5.3 * d sep 0.1" (1928) not seen since 1933 NN 4274 22 20 23 -17 51.0 0.778 158.3 M4 K 13.25 +1.84 +1.42 134.1 05.6 134.1 05.6 13.89 a 3799 LTT 9001 L 788-34 LP 820-12 NN 4275 22 20 30 +27 46.7 0.376 96. m 14.06 +1.24 046. 09. r 12.37 d G127-022 Gl 856 A 22 21 12 +32 12.5 0.327 133. dM0 eJ M 11.41 +1.57 J +1.10 J 091. 18. r 11.21 d G189-016 V840 AC+31:68884 V(AB) = 10.75 d(m) = 0.2 Gl 856 B 22 21 12 +32 12.5 0.327 133. 11.6 * 091. 18. r 11.4 * d sep 1.4" 145d (1964) Gl 857 22 21 38 -58 02.8 0.365 158.3 +7.8 G4 V 5.32 +0.67 +0.13 +0.24 056.2 09.0 056.2 09.0 4.07 d -5 -31 -2 212330 CP-58 7954 Wo 9780 22 21 59 -48 06.8 0.782 143.3 M3.5 K 12.51 +1.22 043.8 22.2 084. 15. r 12.13 d 3804 LTT 9012 LFT 1714 Gl 857.1A 22 22 24 +22 17.9 0.200 244.3 -6.3 dK7 e W 8.86 +1.19 J+1.10 J+0.54 J 047.6 06.8 047.6 06.8 7.25 d +19 -6 +7 BD+21 4747 G127-028 V075 ADS 15915 V(AB) = 8.82 d(m) = 3.5 Gl 857.1B 22 22 24 +22 17.9 0.200 244.3 -2.5 12.4 * 047.6 06.8 047.6 06.8 10.8 * d +19 -2 +5 sep 1.3" 204d (1959) GJ 1268 22 22 56 +51 44.8 0.495 031.4 m+ 14.94 +1.81 +1.39 063.0 03.6 063.0 03.6 13.94 b G232-069 5386 NN 4276 22 23 28 +59 09.8 0.340 157. m 12.91 +1.20 067. 13. r 12.04 d G232-070 NN 4277 A 22 23 43 +02 45.3 0.663 228.4 dM 13.68 +1.59 +1.06 +1.22 039.1 03.3 039.1 03.3 11.64 b G018-048 3808 LTT 16570 LFT 1717 L 1077-19 LP 640-73 Rob 319 NN 4278 B 22 23 43 +02 45.1 0.663 228.4 m 17.7 P 039.1 03.3 039.1 03.3 15.7 P b G018-048 3809 LP 640-72 sep 11" 201d (LHS) Gl 859 A 22 23 52 -16 59.8 0.222 90.0 -0.3 G3 V 6.21 +0.62 J+0.07 J+0.22 J 060.8 08.1 060.8 08.1 5.13 c -14 -4 -9 212698 BD-17 6521 V(AB) = 5.54 d(m) = 0.17 dG2 Wil Gl 859 B 22 23 51 -16 59.8 0.261 92.2 +2.0 G3 V 6.4 * 060.8 08.1 060.8 08.1 5.3 * c -16 -4 -13 212697 BD-17 6520 Wo 9782 A 22 24 05 +04 08.3 0.309 79.0 -17.8 F7 V 5.75 +0.52 +0.04 041.1 07.6 041.1 07.6 3.82 d -37 -15 -3 212754 BD+03 4705 LTT 16573 BS 8548 ADS 15935 Wo 9782 B 22 24 05 +04 08.3 0.309 79.0 K4: K 11.7 * 041.1 07.6 041.1 07.6 9.8 * d sep 3" 218d (NLTT) NN 4279 22 24 32 +06 34.3 0.218 92. dM3 : 13.22 +1.66 072. 30. r 12.5 f G018-049 LTT 16577 L 1149-75 LP 580-17 Rob 320 V-I = 2.72 Robertson NN 4280 22 24 52 +63 37.3 0.288 44. K7 L 9.51 +1.18 +1.17 +0.47 040. 05. r 7.52 c G241-008 GJ 1269 A 22 25 39 +11 59.6 0.200 92.0 +3.8 K0 V 7.15 +0.90 J+0.56 J 041.5 22.2 062. 10. r 6.11 d -12 -1 -11 212989 BD+11 4804 LTT 16584 ADS 15962A V(AB) = 7.08 d(m) = 3.0 GJ 1269 B 22 25 39 +11 59.6 0.200 92.0 10.1 * 041.5 22.2 062. 10. r 9.1 * d ADS 15962B sep 0.9" 227d (1959) Gl 860 A 22 26 13 +57 26.8 0.943 245.4 -33.3 M2 V 9.85 +1.62 +1.23 +1.15 J 251.9 02.3 251.9 02.3 11.86 a +26 -28 +2 239960 BD+56 2783 G232-075 3814 V207 ADS 15972 Kr 60 V(AB) = 9.59 d(m) = 1.67 Gl 860 B 22 26 13 +57 26.8 0.943 245.4 -31.7 M6 V 11.3 v +1.8 : +1.3 : 251.9 02.3 251.9 02.3 13.3 v a +25 -26 +2 3815 DO Cep a = 2.412" P = 44.6 yr NN 4281 22 26 15 -13 39.8 1.083 196.5 -21. M6.5 17.14 +2.16 091.9 05.4 091.9 05.4 16.96 b +26 -52 +10 523 LP 760-3 Mv = 17.03 +- .14 G&L ApJ 305, 784 Wo 9784 22 26 21 +18 40.6 0.210 127.0 dM0 M 10.75 +1.48 +1.31: +0.73 046. 07. r 9.06 d G127-035 V841 LTT 16590 Gl 862 22 26 25 -30 15.8 0.843 164.7 +7.4 K5 V 7.65 +1.10 +1.00 +0.38 075.2 09.4 075.2 09.4 7.03 c +6 -51 -15 213042 CD-30 19175 3817 U565 GJ 1270 22 27 32 +41 13.1 1.293 068.5 m 13.25 +1.65 +1.27 072.3 02.9 072.3 02.9 12.55 a G215-050 524 Gl 862.1 22 28 41 -06 48.6 0.200 121.0 -9.6 SB F7 V 6.14 +0.56 +0.04 +0.31C 045.8 11.9 045. 08. r 4.41 d -13 -18 -6 213429 BD-07 5797 Gl 863 22 30 31 +09 07.1 0.547 74.5 -6.5 M0 K 10.37 +1.51 +1.16 +0.83 066.0 04.3 066.0 04.3 9.47 b -38 -7 -9 BD+08 4887 G018-056 3828 V208 LFT 1723 Wo 9787 s 22 30 38 -35 42.1 0.355 111.2 -51.3 G8 V 7.79 +0.72 +0.29 043.8 06.9 043.8 06.9 6.00 d -52 -26 +27 213628 CD-36 15445 LTT 9071 NN 4282 22 30 44 -09 52.3 M3 s 12.41 +1.57 +1.16 +1.10 059. 12. r 11.26 d Steph 2018 Gl 863.1A s 22 30 50 +53 32.1 1.318 086.1 -2.0 dM1 J W 10.84 +1.36 J+1.13 J+0.62 J 045.8 03.0 045.8 03.0 9.14 b -118 -34 -60 BD+53 2911 G233-017 525 V842 V(AB) = 10.09 d(m) = 0.0 Gl 863.1B s 22 30 50 +53 32.1 1.318 086.1 10.84* 045.8 03.0 045.8 03.0 9.14* b sep 0.5" 296d (1962); comp C optical Gl 863.2 22 31 58 -20 57.9 0.263 122.6 -4.2 F3 V 5.20 +0.44 -0.00 +0.24C 044.6 13.6 044. 06. r 3.42 c -16 -21 -11 213845 BD-21 6251 UPS Aqr NN 4283 22 32 14 +03 47.0 0.195 325. dM4 : 12.68 +1.05 045. 09. r 10.95 d LP 580-33 BPM 97396 Rob 324 ident. with LTT 16621 = L 1077-11 ? NN 4284 22 32 17 -01 20.8 1.135 78.3 dM4 14.83 +1.70 +1.32 042.8 03.7 042.8 03.7 12.99 b 526 LP 640-43 Gl 863.3 s 22 32 57 -54 52.0 0.465 124.0 +66.9 G5 V 7.58 +0.66 +0.12 +0.36C 042.8 11.0 032. 06. r 5.11 d -9 -66 -69 213941 CP-55 9866 Gl 864 22 33 35 -01 05.6 0.607 175.0 +10.9 dM1 W 10.01 +1.44 +1.18 +0.77 065.8 06.4 065.8 06.4 9.10 c +21 -27 -29 214100 BD-01 4323 G027-036 3833 V843 NN 4285 22 34 27 -66 04.6 0.711 119.5 m 11.45 +1.23 147. 27. r 12.29 d 3836 LTT 9108 L 119-44 NN 4286 22 34 34 -00 53.2 0.14 96. 10.5 * 047.3 18.7 047.3 18.7 8.9 * f VVO 271 Gl 865 22 34 57 -65 38.2 0.853 101.4 -26. k-m 11.48 +1.61 +1.23 +1.17 089.9 11.3 089.9 11.3 11.25 c -51 -7 +2 3839 L 119-021 Sm 113 LHS: may have a comp. 13" 189d Wo 9791 22 34 59 -65 38.5 14. P 043.6 20.5 043.6 20.5 12. P f near Gl 865; sep 13" 185d NN 4287 22 35 16 +39 07.6 0.329 184.9 M2 L 9.41 +0.66 071. 11. r 8.67 d BD+38 4818 G189-030 LTT 16634 NN 4288 A 22 35 36 -29 36.4 0.260 183. m 10.92 +0.97 071. 10. r 10.18 d LTT 9123 L 645-74 LP 932-12 NN 4289 B 22 35 37 -29 36.5 0.260 183. m 12.64 +1.16 071. 10. r 11.90 d LTT 9124 L 645-73 LP 932-13 sep 15" 132d Gl 866 AB 22 35 45 -15 35.6 3.254 046.6 -60.0 M5 e K 12.66 +1.98 J+1.6 :J+1.67 J 294.3 03.5 294.3 03.5 15.00 a -69 -1 +41 G156-031 68 L 789-006 V(AB) = 12.30 d(m) = 1.0 ; a = 0.36" P = 2.2 yr Gl 867 A 22 36 01 -20 52.8 0.459 97.0 -8.7 SB dM2 e W 9.10 +1.51 +1.09 +0.93 115.4 04.0 115.4 04.0 9.41 a -18 -9 -2 214479 BD-21 6267 V336 FK Aqr M0VEP Mich Gl 867 B 22 36 01 -20 52.8 0.459 97.0 dM4 e 11.45 +1.60 +1.12 +1.20 115.4 04.0 115.4 04.0 11.76 a L 717-022 Gl 867.1A s 22 36 55 -12 52.4 0.281 122.7 -12.7 SB? G8/K0 V J 8.51 +0.78 J+0.37 J+0.39CJ 046.9 08.1 027. 03. r 5.67 c -28 -39 -17 214615 BD-13 6235 G156-034 ADS 16145 dG9e Wil, V(AB) = 7.80 d(m) = 0.08 Gl 867.1B s 22 36 55 -12 52.4 0.281 122.7 -13.8 dG9 e W 8.6 * 046.9 08.1 027. 03. r 5.8 * c -29 -39 -16 sep 3.6" 118d (1960) Gl 867.1C s 22 37 02 -12 50.9 0.270 126. k-m 14.65 +1.61 +1.45 046.9 08.1 027. 03. r 11.81 c G156-035 sep(AC) 139" Gl 868 22 37 55 -29 56.1 0.401 94.3 +1.0 K5 Ve 7.82 +1.13 +1.00 +0.44 069.1 10.2 069.1 10.2 7.02 d -22 -9 -14 214749 CD-30 19255 U576 Gl 869 22 38 06 -32 15.1 0.356 87.3 -21.0 G8 V 7.39 +0.80 +0.44 +0.25 060.6 13.6 043. 07. r 5.56 d -43 -11 +0 214759 CD-32 17191 NN 4290 22 38 28 +44 20.2 0.474 094.2 m 13.20 +1.16 050. 10. r 11.69 d G216-011 6 Wo 9793 22 39 08 +18 33.7 0.273 72.6 M0 s 10.75 +1.42 +0.68 040. 06. r 8.76 d BD+18 5029? G067-013 V845 L 1293-93 pm (AC -BDX) Gl 871 A 22 39 39 -47 28.1 0.334 175.1 +17.3 G1 V 6.00 +0.57 +0.06 +0.20 057.5 24.4 049. 06. r 4.45 c +12 -34 -8 214953 CD-47 14307 Gl 871 B 22 39 39 -47 28.1 0.334 175.1 M1 K 11.10 +1.41 057.5 24.4 049. 06. r 9.55 c GJ 1271 22 40 08 +17 24.0 1.240 063.9 M3 K 11.78 +1.56 +1.16 +1.03 052.6 04.4 052.6 04.4 10.38 b G067-015 528 NN 4291 22 40 46 -06 39.6 0.326 205.7 -18. K0 8.12 +0.97 +0.79 049. 08. r 6.57 d +19 -29 +10 215152 BD- 7 5839 G027-042 LTT 9164 NN 4292 22 40 57 +21 52.6 0.409 092.7 m 15.00 +1.44 063. 10. r 14.00 d G127-050 6 GJ 1272 A s 22 42 58 +10 55.9 0.163 175.3 -0.6 dK6 9.98 +1.13 J+1.02 J+0.51 J 053.0 23.7 029. 03. r 7.29 c +12 -17 -16 BD+10 4812 V848 ADS 16242A V(AB) = 9.82 d(m) = 2. GJ 1272 B s 22 42 58 +10 55.9 0.163 175.3 -0.6 12. * 053.0 23.7 029. 03. r 9. * e +12 -17 -16 ADS 16242B sep 0.7" 80d - 1.9" 359d (1878-1971) NN 4293 22 43 18 -63 34.0 0.222 115. M3 S 11.40 +1.46 +0.81t 041. 08. r 9.46 d LTT 9181 BPM 15055 L 166-104 Sm 114 NN 4294 22 43 47 -06 54.8 0.865 128.0 m 15.98 +1.83 053.7 06.8 053.7 06.8 14.63 c 3850 LP 701-7 USNO 777 NN 4295 22 44 07 +23 18.1 0.058 94.8 -4.3 G8 IIIa CN 3.96 +1.07 +0.93 040.9 11.9 040.9 11.9 2.0 e -5 -6 -1 215665 BD+22 4709 Gl 871.2 22 44 11 +49 56.8 0.239 90.5 -50.8 K0 H 7.86 +0.80 +0.49 048.0 15.3 039. 05. r 5.82 c -13 -57 -7 215704 BD+49 3937 G233-028 Gl 872 A 22 44 12 +11 55.0 0.538 155.0 -6.0 F6 IV-V 4.19 +0.50 -0.03 +0.19 050.0 11.9 050.0 11.9 2.7 e +5 -38 -34 215648 BD+11 4875 3851 XI Peg Gl 872 B 22 44 12 +11 55.0 0.538 155.0 -7.2 M1 K 11.7 * 050.0 11.9 050.0 11.9 10.2 * e +5 -39 -33 3852 Gl 873 22 44 40 +44 04.6 0.901 238.7 -0.5 SB dM4.5e W 10.26v +1.61 +1.19 197.0 02.5 197.0 02.5 11.73v a +21 +3 -1 BD+43 4305 G216-016 3853 V852 EV Lac opt. comp. sep 5" NN 4296 22 45 19 +44 17.4 0.095 222.6 +2.2 F8 9.6 * 056.0 24.0 056.0 24.0 8.3 * f +7 +3 -3 215857 BD+43 4306 Gl 874 22 45 25 -37 03.0 0.807 109.4 M3 K 11.92 +1.48 +0.95 051.3 10.7 051.3 10.7 10.47 d 3855 L 501-038 NN 4297 22 45 32 +31 36.2 0.500 69.0 m 12.91 +1.10 047. 10. r 11.27 d G128-003 3854 L 1509-40 LP 344-44 Wo 9796 22 45 33 -51 34.8 0.129 121.1 -3. A2 V 3.48 +0.08 +0.10 042.9 09.2 042.9 09.2 1.64 d -11 -10 -1 215789 CD-51 13389 GJ 1273 22 46 39 +22 20.5 0.506 086.2 +94. DA5 14.36 +0.19 -0.68 052.6 04.1 052.6 04.1 12.96 b -40 +30 -44 G067-023 3857 W155 LTT 18580 PG Wo 9797 s 22 47 20 -41 45.1 0.415 239.6 +21.6 G5 V 7.77 +0.74 +0.24 +0.26 043.7 09.6 033. 05. r 5.36 d +61 -16 +9 216054 CD-42 16092 LTT 9216 NN 4298 22 47 36 +24 19.8 0.15 104. +15.3 G8+ III 3.48 +0.93 +0.68 +0.47 039.2 20.4 039.2 20.4 1.4 f -13 +6 -19 216131 BD+23 4615 Gl 875 22 47 43 -07 21.4 0.152 316.8 -5.7 dM1 e W 9.85 +1.48 +1.24 +0.73 071.1 10.6 071.1 10.6 9.11 d +1 +5 +10 216133 BD-07 5871 V210 GJ 1274 22 48 14 +34 35.2 0.889 071.3 m 11.72 +1.53 048.1 05.2 048.1 05.2 10.13 c G189-038 3859 LP 289-11 NN 4299 1 22 48 17 +35 55.7 0.196 253. m 12. * 047. 09.4 047. 09.4 10. * e LP 289-12 NN 4300 22 48 22 +28 20.3 0.223 103. m 12.55 +1.08 052. 11. r 11.13 d LP 344-047 GJ 1275 22 48 56 +29 23.7 1.269 083.2 DA9 15.52 +0.63 -0.10 048.3 04.3 048.3 04.3 13.94 b G128-007 529 W283 Wo 9798 s 22 48 56 +13 42.1 0.462 62.5 -1.7 dK4 W 8.30 +0.84 +0.44 042.7 12.1 035. 06. r 6.02 d -62 +0 -5 216259 BD+13 5006 G067-027 LTT 16716 Gl 875.1 22 49 30 +31 29.4 0.513 095.6 -3.7 dM3.5e W 11.63 +1.55 +1.07 +1.11 065.0 04.4 065.0 04.4 10.69 b -30 -15 -18 G128-008 3861 LFT 1741 AC+31:70565 NN 4301 22 49 37 +23 09.0 0.202 139.1 -4.2 dK8 M 9.78 +1.20 +1.14 +0.54 042. 05. r 7.90 c -4 -15 -17 BD+22 4725 V853 Wo 9800 A 22 49 45 -33 08.5 0.034 239.5 +16.5 A0 III 4.50 -0.04 J-0.14 J 042.4 17.0 042.4 17.0 2.6 f +10 +1 -13 216336 CD-33 16270 BS 8695 V(AB) = 4.46 d(m) = 3.6 , pi(uvby) = 0.012 Wo 9800 B 22 49 45 -33 08.5 0.034 239.5 +17. 8.6 * 042.4 17.0 042.4 17.0 6.7 * f +11 +1 -14 sep 4.2" Wo 9801 A s 22 49 52 +09 34.1 0.523 84.6 +10.2 F7 IV 5.16 +0.48 -0.01 +0.17 049.7 09.8 041. 05. s 3.22 c -53 -6 -30 216385 BD+09 5122 3864 LFT 1743 Wo 9801 B s 22 49 58 +09 38.1 0.520 84.7 M3: K 13.52 +1.66 +1.32 +1.10 049.7 09.8 041. 05. s 11.58 c G028-021 3865 LTT 16722 LFT 1744 sep 248" 20d Gl 876 22 50 35 -14 31.2 1.143 123.5 -1.5 dM5 W 10.17 +1.58 +1.15 +1.22 211.3 04.8 211.3 04.8 11.79 a -13 -19 -12 BD-15 6290 G156-057 530 V337 Wo 9802 22 50 41 -48 51.8 0.236 110.0 -1.0 G3 IV 6.03 +0.62 +0.19 046.0 15.4 046.0 15.4 4.3 e -19 -14 -7 216435 CD-49 13988 LTT 9249 GJ 1276 22 51 09 -07 02.3 2.570 106.0 DZ9+ 15.65 +1.90 124.2 04.3 124.2 04.3 16.12 a 69 W453 LP 701-29 NN 4302 22 52 09 -05 44.7 0.693 62.2 m 13.9 * +1.24 050. 09. r 12.4 * d G156-063 3872 Gl 877 22 52 12 -75 42.7 1.420 225.6 -86. k 10.40 +1.49 +1.05 +1.06 119.9 09.1 119.9 09.1 10.79 b -13 +31 +97 531 L 049-019 Gl 878 22 52 26 +60 43.7 0.690 259.8 M3 K 12.76 +1.60 +1.12 071.0 06.8 071.0 06.8 12.02 c G233-031 3871 Ross 226 NN 4303 22 52 30 -52 34. 0.175 128. M4 S 11.49 +1.45 +0.83t 042. 08. r 9.61 d BPM 28050 Sm 119 NN 4304 A 22 53 24 +05 29.5 0.448 128. dM0 11.26 +1.45 +1.19 +0.82 045. 08. r 9.53 d G028-024 LTT 16738 L 1150-65 LP 581-36 BPM 97728 Rob 348 NN 4305 B 22 53 23 +05 29.6 0.448 128. DB 15.7 P 045. 08. r 14.0 P d W LP 581-35 sep 17" 286d GJ 1277 22 53 25 -60 18.3 1.060 209.0 +68. M4 14.08 +1.79 +1.45 +1.42 090. 13. r 13.85 d +62 -59 -20 532 NN 4306 22 53 32 +17 32.7 M0 s 10.50 +1.49 +1.19 +0.82 065. 11. r 9.56 d Steph 2065 Gl 879 22 53 37 -31 49.8 0.360 114.6 +9.0 K5 Ve 6.48 +1.10 +1.02 +0.41 128.1 09.0 128.1 09.0 7.02 b -5 -8 -13 216803 CD-32 17321 U584 TW Psa Gl 880 22 54 10 +16 17.4 1.071 254.8 -27.9 SB dM2 e W 8.67 +1.50 +1.18 +0.88 148.2 02.5 148.2 02.5 9.52 a +32 -17 +25 216899 BD+15 4733 G067-037 533 V854 NN 4307 22 54 19 +67 59.2 0.748 63.2 m 14.68 +1.70 040.2 05.0 040.2 05.0 12.70 c G241-031 3877 USNO 778 Gl 881 22 54 54 -29 53.3 0.372 115.6 +6.1 A3 V 1.16 +0.09 +0.08 -0.06 153.7 07.7 153.7 07.7 2.09 b -5 -7 -10 216956 CD-30 19370 ALF Psa Gl 882 22 55 00 +20 30.0 0.208 76.9 -33.7 G4 V 5.50 +0.67 +0.21 +0.22 058.4 08.2 058.4 08.2 4.33 d -16 -31 +15 217014 BD+19 5036 Gl 883 22 57 16 -11 38.9 0.229 92. -20. dM1 W 10.60 +1.42 +0.64 041. 08. r 8.66 d -28 -17 +6 BD-12 6393 V338 Gl 884 22 57 38 -22 47.6 0.911 274.1 +15.4 K5/M0 V 7.88 +1.39 +1.24 +0.60 128.4 06.8 128.4 06.8 8.42 b +33 +16 +0 217357 CD-23 17699 3885 V339 dM1 Wil NN 4308 A 22 57 51 -24 13.0 0.389 148. M1: s 11.57 +1.53 +0.87 047. 06. r 9.93 c CD-24 17443 LTT 9310 L 718-71 Steph 1681 is comp B (NLTT) !? NN 4309 B 22 57 54 -24 14.0 0.389 148. M2 s 11.61 +1.55 +0.88 047. 06. r 9.97 c CD-24 17445 LTT 9315 L 718-70 Steph 1682 sep 75" 324d Gl 886 22 59 15 -04 06.9 0.446 117.2 -43.1 SB K4 V 7.46 +0.95 +0.77 +0.32 058.6 09.0 058.6 09.0 6.30 d -28 -46 +16 217580 BD-04 5804 G156-075 6 Gl 886.1A q 23 00 18 +42 29.3 0.046 81.2 +2.0 SB A3 Vn 5.14 +0.09 J+0.11 J 018.5 09.5 018.5 09.5 1.5 f -11 -1 -4 217782 BD+41 4665 BS 8766 ADS 16467 V(AB) = 5.10 d(m) = 3.7 Gl 886.1B q 23 00 18 +42 29.3 0.046 81.2 8.8 * 018.5 09.5 018.5 09.5 5.1 * f sep 0.5" 25d (1958) NN 4310 23 00 27 -49 59.7 0.116 201. M3 S 10.64 +1.41 +0.76t 051. 09. r 9.18 d CD-50 13863? BPM 28112 Sm 122 Gl 886.2 23 00 44 -35 01.2 0.113 41.5 -6.0 SB F0 IV 5.11 +0.29 +0.00 +0.19C 050.2 11.9 050.2 11.9 3.6 e -11 +5 +2 217792 CD-35 15630 PI Psa GJ 1278 p 23 02 32 +66 29.7 0.332 107. +7.4 dM1 W 9.89 +1.40 +1.26 +0.66 033.8 13.6 058. 12. r 8.71 d -23 +1 -17 BD+65 1846 G241-041 V077 Gl 887 23 02 39 -36 08.5 6.896 79.1 +9.5 M2 Ve 7.34 +1.49 +1.18 +0.84 284.3 14.9 284.3 14.9 9.61 b -100 -15 -56 217987 CD-36 15693 70 U591 Wo 9808 s 23 03 08 +68 08.7 0.606 73.5 -18.2 G6 V 7.48 +0.65 +0.09 047.5 15.9 031. 05. r 4.94 d -78 -52 -14 218209 BD+67 1498 G241-042 3894 LFT 1759 Wo 9809 23 04 00 +63 39.0 0.174 109.8 dM0 M 10.82 +1.42 +0.73 044. 07. r 9.04 d V858 AC+63:32399 Gl 889 A 23 04 26 -23 25.6 0.340 152.5 +19.0 K5 V 9.62 +1.30 +1.38 +0.54 048.7 07.7 044. 06. r 7.84 c +4 -31 -27 218294 CD-23 17748 G275-001 V341 LTT 9360 dM0 Wil Gl 889 B 23 04 34 -23 23.8 0.303 149. k-m 13.65 +1.65 +1.16 048.7 07.7 044. 06. r 11.87 c G275-002 LTT 9361 LP 877-061 NN 4311 23 04 36 +71 26.8 1.320 71.5 M2 L 11.78 +1.48 +0.95 050. 10. r 10.27 d G241-044 534 LP 48-822 NN 4312 23 05 25 +68 23.8 1.125 88.5 m 12.45 +1.54 +1.10 063.5 04.2 063.5 04.2 11.46 b G241-045 535 Gl 889.1 23 05 32 +03 03.3 0.533 060.0 +32. dM0 M 10.91 +1.52 +1.21 +0.77 061.3 03.3 061.3 03.3 9.85 b -37 +23 -28 G028-039 3899 V343 AC+03:2781-116 Gl 890 23 05 41 -15 40.8 0.05 79. +2.0 dM2.5e W 10.88 +1.42 +1.12 +0.73 040.7 06.3 040.7 06.3 8.93 d -5 +0 -4 BD-16 6218 V342 GJ 1279 23 06 33 -68 00.1 0.387 235.0 K5 V 8.39 +1.20 +1.14 +0.50 070. 11. r 7.62 d 218511 CD-68 2331 U596 LTT 9379 NN 4313 p 23 06 34 -02 31.8 0.643 98.4 -40.9 K3 V 8.59 +1.01 +0.95 +0.34 029.0 09.2 039. 06. r 6.55 d -68 -56 -1 218566 BD- 3 5577 G028-041 3900 LTT 9378 NN 4314 23 07 04 -02 14.5 0.449 143. k-m 12.66 +1.54 +1.18 043. 20. r 10.8 f G028-044 LTT 9381 L 1007-39 LP 642-82 GJ 1280 23 07 08 -69 06.9 0.332 14.4 K4 V 8.78 +1.02 +0.76 +0.42 044. 06. r 7.00 c 218572 CD-69 2083 U597 LTT 9387 Wo 9812 A s 23 07 15 -22 43.7 0.026 103.5 -1.0 G2 V 5.11 +0.65 J+0.39 J 039.0 13.6 021. 03. s 1.72 d -5 -3 -1 218640 CD-23 17771 BS 8817 V(AB) = 4.69 d(m) = 0.8 , G6/8 III Mich Wo 9812 B s 23 07 15 -22 43.7 0.026 103.5 -6. A3 (IV) 5.9 * 039.0 13.6 021. 03. s 2.5 * d -6 -5 +3 218641 sep 0.4" 7d (1959) Gl 891 23 07 32 -26 12.2 0.710 088.4 M2.5 K 11.27 +1.52 +1.2 : +0.94t 077.7 19.0 077.7 19.0 10.7 e CD-26 16501 G275-013 3904 NN 4315 ABq 23 07 39 +47 41.2 0.150 89.6 -6.8 SB G5 7.91 +0.90 +0.57 028.7 03.4 028.7 03.4 5.20 c -20 -14 -8 218738 BD+47 4058 ADS 16557 GJ 1281 23 08 03 -19 28.7 1.421 178.4 +55. M3 K 12.47 +1.49 +1.05 +0.96 040. 10. r 10.5 e +81 -136 -80 538 LP 822-31 L 791-76 NN 4316 23 09 35 -14 21.9 0.748 197.3 m 13.0 * +1.13 050. 10. r 11.5 * d 3909 LP 762-3 Gl 891.1 23 10 15 +49 08.0 0.130 37.3 +11.2 SB F0 V 4.52 +0.29 +0.04 049.1 06.1 049.1 06.1 2.98 c -14 +9 +4 219080 BD+48 3964 NN 4317 23 10 51 -81 36.7 0.531 82.6 k-m 10.1 * +0.71 058. 09. r 8.9 * d 3916 LFT 1773 LTT 9424 L 10-21 Gl 892 23 10 52 +56 53.5 2.094 81.8 -18.2 K3 V 5.56 +1.01 +0.89 +0.35 146.4 04.7 146.4 04.7 6.39 a -56 -40 -15 219134 BD+56 2966 71 NN 4318 23 10 54 -70 19.9 0.200 68.3 G5 V 6.90 054. 06. o 5.56 c 219048 CP-70 2999 CD-70:1916 GJ 2154 A 23 11 32 -19 55.1 0.454 84. K7 V U 10.62 +1.46 +1.22 +0.78 044. 06. r 8.84 c BD-20 6558 U601 LTT 9423 GJ 2154 B 23 11 32 -19 55.2 0.454 84. m 13.80 +1.60 +1.14 +1.18 044. 06. r 12.02 c LP 822-105 Gl 893.1 23 11 51 -06 49.1 0.376 245. DQ6 15.42 +0.22 -0.63 040.9 06.9 040.9 06.9 13.48 d G157-034 W553 LTT 9427 LP 702-48 L 935-050 Gl 893.2A s 23 13 16 -09 21.6 0.368 92.0 -25.2 K0 III 4.22 +1.11 +1.00 +0.38 043.3 06.2 043.3 06.2 2.40 d -39 -26 +7 219449 BD-09 6156 BS 8841 PSI(1) Aqr sep(A-BC) 49.6" 312d (1836-1938) Gl 893.2B s 23 13 14 -09 21.1 0.382 90.9 -26.1 K3 V J 9.62 +1.05 J+0.90 J+0.38 J 043.3 06.2 043.3 06.2 7.80 d -41 -26 +8 219430 BD-09 6155 G157-037 V859 ADS 16633 V(BC) = 9.16 d(m) = 0.7 Gl 893.2C s 23 13 14 -09 21.1 0.382 90.9 10.3 * 043.3 06.2 043.3 06.2 8.5 * d sep 0.2" 108d (1961) NN 4319 23 13 36 +06 28.4 0.285 147. k 13.14 +1.63 +1.26 063. 27. r 12.1 f G028-050 LTT 16837 NN 4320 q 23 13 51 +30 23.8 0.377 74.9 +9.0 K2 V 8.09 +0.88 +0.58 017.1 18.8 042. 07. r 6.21 d -42 -2 -10 219538 BD+29 4890 G128-042 LTT 16838 GJ 1282 23 13 58 -62 16.4 0.180 97.4 -1.8 F7 V 5.66 +0.51 +1.61c 046. 06. r 3.97 c -17 -8 -4 219482 CD-62 1444 BS 8843 Gl 893.3A x 23 14 00 -41 03.6 0.255 182. g-k 11.57 +0.90 +0.54C 048.3 15.3 048.3 15.3 10.0 e CD-41 15204 LP 1034-092 L 431-25 Gl 893.3B x 23 14 01 -41 03.9 0.255 182. 17.4 R 048.3 15.3 048.3 15.3 15.8 R e LP 1034-093 sep 19" 160d (NLTT) Gl 893.4 23 14 11 +19 21.0 0.253 227. dM0 M 11.16 +1.49 +1.18 +0.78 043. 07. r 9.33 d G067-052 V860 AC+19:1079-115 NN 4321 A p 23 14 14 -67 11.2 0.559 138.1 +67.8 K5 V 8.73 +1.05 +0.96 +0.39 037.5 06.0 043. 04. r 6.90 c +1 -83 -39 219509 CP-67 3960 3922 LTT 9452 CD-67:2594 SB !? NN 4322 B p 23 14 10 -67 12.3 0.542 138.3 +66.4 K5 V 9.04 +1.11 +1.06 +0.42 037.5 06.0 043. 04. r 7.21 c +2 -81 -38 219495 CP-67 3959 3921 LTT 9451 CD-67:2593 sep 71" 199d NN 4323 p 23 14 19 +05 25.4 0.009 159.5 -11. dM0.5 W 10.52 +1.41 +1.25 +0.62 034.7 13.6 040. 08. r 8.53 d -1 -8 +8 BD+ 4 4988 V344 NN 4324 23 14 25 +52 56.6 0.255 153.9 -25.3 F7 V 5.54 +0.52 +0.02 043.3 11.9 051. 08. r 4.08 d +7 -27 -20 219623 BD+52 3410 LTT 16841 Wo 9818 23 14 31 -58 30.6 0.087 343.7 +18.4 F1 III 3.99 +0.40 -0.04 041.0 10.2 041.0 10.2 2.1 e +9 +3 -18 219571 CP-58 8062 Gl 894 s 23 14 51 -42 27.9 0.290 98. +8.0 K3/5 V 10.38 +1.32 +1.25 +0.58 061.6 08.5 061.6 08.5 9.33 d -15 -11 -14 219630 CP-42 9551 U603 Sm 131 NN 4325 23 14 57 -48 35.0 0.799 157.7 m 13.7 * +1.20 046. 09. r 12.0 * d 3925 LFT 1779 LTT 9467 L 359-91 NN 4326 23 14 58 +19 20.5 0.269 105. M4 L 12.10 +1.59 +1.20 078. 36. r 11.6 f G067-053 LTT 16843 L 1295-9 LP 462-19 NN 4327 23 15 00 +37 56.6 0.531 196.4 m 11.46 +1.54 +1.20 +1.04 056.1 03.4 056.1 03.4 10.20 b G190-017 3923 NN 4328 s 23 15 00 +09 25.2 0.125 111. +24.8 dK8 M 9.72 +1.13 +0.98 +0.50 051.4 06.8 051.4 06.8 8.27 c -7 +11 -24 BD+08 5036 V862 NN 4329 23 15 01 +06 07.3 0.298 142. dM4 12.53 +1.55 +1.28 049. 23. r 11.0 f G029-019 LTT 16844 Viln 82 no 35 NN 4330 23 15 25 -41 05.8 0.178 131.5 +28.6 F5 V 5.53 +0.44 -0.05 039. 05. r 3.49 c +1 -21 -29 219693 CD-41 15211 Wo 9819 s 23 15 41 -58 34.7 0.263 125.8 +17.2 G2 V 7.52 +0.65 +0.04 039.5 13.6 029. 05. r 4.83 d -18 -40 -15 219709 CP-58 8064 LTT 9472 NN 4331 23 15 50 -61 31.7 0.08 326. M3 S 11.20 +1.41 +0.80t 043. 08. r 9.37 d CD-61 6801 Sm 132 R-I = 1.05 Weistrop Gl 894.1 23 15 56 +46 00.8 0.333 70. -5.7 M0.5 K 10.90 +1.45 +0.76 047.8 15.3 047. 09. r 9.26 d -31 -15 +1 BD+45 4188 G216-037 Wo 9821 23 16 08 -32 48.3 0.068 164.2 +15.6 G8 III 4.41 +1.13 +1.06 042.1 10.2 042.1 10.2 2.5 e +6 -6 -15 219784 CD-33 16476 GJ 1283 23 16 10 -60 47.6 0.087 247.7 K4 V 8.97 +1.15 +1.05 +0.48 049. 07. r 7.42 d 219764 CD-61 6802 U605 Gl 894.2A 23 16 29 -13 43.9 0.312 108.5 +10.3 SB G5 IV 5.2 +0.79 +0.41 +0.26 040.9 08.6 051. 08. r 3.7 d -18 -14 -21 219834 BD-14 6448 Viln 82 no 43 Gl 894.2B 23 16 29 -13 43.6 0.321 106.1 +10.3 K2 V 7.61 +0.91 +0.67 +0.29 040.9 08.6 051. 08. r 6.15 d -19 -13 -21 Viln 82 no 44 NN 4332 23 17 24 -60 20.0 0.300 254. M2 S 10.99 +1.45 +0.78t 046. 08. r 9.30 d LTT 9494 BPM 15510 L 168-9 Sm 133 R-I = 1.03 Weistrop Wo 9822 s 23 17 28 +28 35.7 0.747 97.0 -53. K1 V 8.89 +0.81 +0.37 +0.33 043.9 15.5 027. 04. r 6.05 d -98 -97 -31 219953 BD+28 4562 G128-048 3931 LFT 1783 NN 4333 23 19 09 +17 02.1 1.483 201.0 m 11.72 +1.51 +1.09 +1.24 092.8 03.8 092.8 03.8 11.56 a G068-008 543 LTT 16862 LFT 1785 L 1295-31 LP 462-27 Gl 894.4 23 19 11 +43 49.2 0.669 70.3 +4.4 K1 V 7.36 +0.80 +0.41 050.6 16.0 050. 08. r 5.85 d -62 -14 -2 220182 BD+43 4445 G190-020 3936 Gl 894.5 23 20 27 -11 02.5 0.522 59.4 +35.9 K2 V 7.80 +0.89 +0.59 +0.32 059.7 10.0 059.7 10.0 6.68 d -34 +20 -38 220339 BD-11 6064 G157-054 3939 Viln 82 no 55 Gl 895 23 22 14 +57 35.0 0.287 185. -33.8 dM2 e W 10.04 +1.50 +1.18 +0.86 071.6 02.3 071.6 02.3 9.31 a +20 -29 -15 BD+57 2735 G217-007 V211 Gl 895.1 s 23 22 55 -45 53.1 0.482 096.0 M0 K 11.26 +1.42 043.9 17.0 038. 10. r 9.2 e CD-46 14649 5404 L 359-33 Sm 135 NN 4334 s 23 23 16 +52 51.3 1.071 71.2 m 14.59 +1.66 040.3 03.1 040.3 03.1 12.62 b 543a Wo 9826 x 23 23 26 +28 55.5 0.578 125.3 K3 K 11.05 +0.94 +0.72 +0.38 042.0 10.9 042.0 10.9 9.2 e G128-061 3946 LTT 16891 LFT 1791 AC+28:68304 GJ 2155 23 23 39 +08 37.0 0.537 068.7 K7 10.54 +1.50 +1.20 +0.70t 051.0 05.2 051.0 05.2 9.08 c G029-033 3947 LTT 16892 Rob 367 NN 4335 23 23 54 -47 07.0 0.521 136.4 m 15.75 +1.42 042. 06. r 13.87 d 3949 L 360-133 NN 4336 23 23 59 +11 52.8 0.707 70.0 m 12.63 +1.06 047. 09. r 10.99 d G029-035 3948 LTT 16893 L 1223-62 LP 522-49 Wo 9827 s 23 24 30 -01 33.9 0.439 62. +27.0 dM0.5 W 10.39 +1.28 +0.53 047.6 10.6 034. 06. r 8.05 d -59 +16 -27 BD-02 5958 G157-063 V078 LTT 9542 Gl 895.2 23 26 16 +04 58.5 0.492 238.1 +34. DAV4 13.04 +0.16 -0.64 +0.02C 072.7 04.8 072.7 04.8 12.35 b +32 -8 +8 G029-038 5405 W159 LTT 16907 ZZ Psc PG Gl 895.3 s 23 26 49 -47 18.6 0.21 105. -4.0 K7 V 10.21 +1.31 +1.23: +0.69C 048.6 10.2 048.6 10.2 8.64 d -17 -12 -1 CP-47 9997 CD-47:14591 Sm 137 NN 4337 A 23 26 56 +41 11.9 0.404 95. M2 L 11.87 +1.52 +1.09 +1.14 067.2 2.5 067.2 2.5 11.01 a G190-028 USN 781 NN 4338 B 23 26 55 +41 11.7 0.404 95. M3 : L 12.44 +1.61 +1.06 +1.28 067.5 2.5 067.5 2.5 11.59 a G190-027 USN 780 sep 17" 215d GJ 1284 23 27 35 -20 39.8 0.355 121. M2 Ve U 11.16 +1.51 +1.03 +1.10 092. 25. r 11.0 e G273-059 U610 NN 4339 23 27 45 +31 25.9 0.235 123.0 -14.6 K0 8.31 +0.93 +0.58 039. 05. r 6.27 c -11 -27 -13 221239 BD+30 4961 G128-067 LTT 16910 Gl 895.4 23 28 56 +58 53.3 1.108 84.3 -24.3 K0 V 6.74 +0.83 +0.51 +0.28 056.1 04.3 056.1 04.3 5.48 b -75 -59 -19 221354 BD+58 2605 G217-011 544 LTT 16916 Wo 9829 s 23 28 56 -04 21.6 0.259 137.1 -13.1 F8 V 6.49 +0.54 -0.01 042.9 06.5 039. 04. s 4.45 c -9 -33 -4 221356 BD-04 5896 LTT 9578 Viln 82 no 70 Gl 896 A 23 29 20 +19 39.7 0.560 091.7 +1.1 dM4 e W 10.38 +1.54 +1.08 +1.13 151.9 03.7 151.9 03.7 11.29 a -15 -6 -6 BD+19 5116 G068-024 3965 V080 EQ Peg Gl 896 B 23 29 20 +19 39.7 0.560 091.7 -1.2 dM6 e W 12.4 * +1.65 +1.12 +1.62 151.9 03.7 151.9 03.7 13.3 * a -15 -8 -5 3966 NN 4340 23 30 08 -77 39.7 0.018 74.9 +26.0 G2 V 5.81 +0.68 +0.31 072. 12. r 5.10 d +12 -16 -17 221420 CP-78 1473 BS 8935 Gl 897 A 23 30 09 -17 01.5 0.400 126. -1.9 M3.5 J K 10.95 +1.51 J+0.95 J+1.03 J 077.5 09.0 077.5 09.0 10.40 c -11 -21 -7 BD-17 6768 G273-067 V(AB) = 10.42 d(m) = 0.5 , triple with Gl 898 sep 336" 353d Gl 897 B 23 30 09 -17 01.5 0.400 126. 11.4 * 077.5 09.0 077.5 09.0 10.8 * c sep 0.5" 358d - 0.2" 345d (1934-1962) Gl 898 23 30 12 -17 07.1 0.390 126.8 +0.5 K5/M0 V 8.60 +1.28 +1.22 +0.53 077.5 09.0 077.5 09.0 8.05 c -10 -20 -9 221503 BD-17 6769 G273-068 V864 SpT: dK5e Wilson Wo 9830 s 23 30 57 +42 34.1 0.305 52.9 +6.1 G0 7.14 +0.58 +0.04 041.0 10.2 031. 04. s 4.60 c -45 -4 +13 221613 BD+42 4700 G171-003 LTT 16929 Gl 899 23 31 33 -00 05.1 1.388 227.8 +20. M4 W 11.17 +1.45 +1.08 +0.98 070.9 12.2 070.9 12.2 10.42 d +91 -9 -25 G029-043 545 Wolf 1039 Gl 900 23 32 26 +01 19.7 0.347 82.0 -10.9 dM0.5 W 9.56 +1.35 +1.20 +0.64 058.4 10.8 058.4 10.8 8.39 d -27 -14 +3 BD+00 5017 G029-047 V081 X-ray src: Fleming et al. 1988 NN 4341 23 32 34 +24 58.2 0.208 16. M3 K 12.92 +1.09 044. 08. r 11.14 d LTT 16939 Ross 298 GJ 1286 23 32 34 -02 39.3 1.157 137.4 M5 14.69 +1.96 +1.65 138.6 03.5 138.6 03.5 15.40 a G157-077 546 Gl 900.1 s 23 32 52 -47 13.1 0.349 145.9 -5.0 G8 V 8.54 +0.79 +0.35: +0.27 045.6 15.3 026. 04. r 5.61 d -17 -61 +10 221818 CD-47 14628 NN 4342 23 32 56 +29 47.4 0.348 217. m 13.21 +1.14 047. 09. r 11.57 d G128-082 LTT 16945 L 1440-32 LP 346-49 NN 4343 23 32 57 +30 53.3 0.334 213.1 -17.9 K0 K 7.91 +0.84 +0.50 040. 06. r 5.92 d +37 -19 -12 221851 BD+30 4983 G128-083 LTT 16944 NN 4344 23 33 00 -16 34.3 0.152 151. DA 13.34 +0.13 -0.57 045. 07. w 11.61 d W GD 1192 BPM 82958 NN 4345 s 23 33 07 +05 54.3 0.628 062.8 m 16.10 +1.78 042.2 03.2 042.2 03.2 14.23 b 3978 LP 583-11 NN 4346 p 23 33 14 +41 41.3 0.714 77.2 M0 K 11.20 +1.43: +1.26 +0.82t 035.4 13.6 044. 10. r 9.42 d G171-005 3980 LTT 16947 LFT 1807 NN 4347 23 33 37 -48 51.9 0.142 259.9 M0 S 10.09 +1.37 +0.64t 051. 07. r 8.63 c CP-49 11759 CD-49:14193 CFS 20397 Sm 139 BPM 45047 NN 4348 23 33 37 -48 51.9 0.127 272. 12.37 +1.44 +1.09t 051. 07. r 10.91 c BPM 45048 sep 25" 150d Reid MN 201, 51 (1982) NN 4349 23 33 59 +55 13.2 0.479 101.1 M1 K 11.70 +1.46 +1.19 +0.87 041. 08. r 9.76 d G217-013 6 LTT 16952 Ross 303 NN 4350 23 34 08 -36 45.5 1.155 87.9 M4 K 13.72 +1.62 +1.36 +1.36 081. 16. r 13.26 d 547 LFT 1809 LTT 9624 L 504-27 LP 986-92 Gl 901 s 23 34 14 +00 53.4 1.205 094.9 +44. M3.5: K 13.08 +1.56: +1.13: +0.91 045.9 23.3 026. 07. r 10.2 e -181 -75 -108 G029-053 548 Wolf 1040 Wo 9832 23 35 06 +46 11.2 0.446 159.0 +6.8 SB G8 III-IV 3.82v +1.01 +0.69 048.1 07.4 048.1 07.4 2.23v d -1 -5 -44 222107 BD+45 4283 LTT 16964 NN 4351 q 23 35 30 +45 55.4 0.339 91.5 -0.6 G5 6.58 +0.66 +0.16 028.9 13.6 048. 06. r 4.99 c -29 -14 -10 222143 BD+45 4288 G171-007 LTT 16967 BS 8964 NN 4352 23 35 33 -16 30.8 0.279 257. M2 s 11.34 +1.57 +0.96 067. 13. r 10.47 d BD-17 6785 G273-093 LTT 9634 L 792-25 NN 4353 23 35 37 -41 47.6 0.282 131. M3 S 11.93 +1.46 +0.98t 050. 11. r 10.42 d CD-42 16413 LTT 9635 Sm 142 NN 4354 23 36 14 +38 53.2 0.579 204.4 m 13.58 +1.16 042. 08. r 11.70 d G171-008 3991 V-R = 1.36 Weis NN 4355 23 36 16 -07 58.1 0.05 :140. DA 13.26 +0.18 -0.47 063. 11. w 12.26 d W GD 1212 NN 4356 A 23 36 23 +20 44.6 0.329 58. m 14.24 +1.23 041. 08. r 12.30 d G068-034 NN 4357 B 23 36 24 +20 44.5 0.329 58. g 17.9 P 041. 08. r 16.0 P d LP 463-28 sep 10" 108d (NLTT) Gl 902 23 36 41 -72 59.3 0.749 169.1 +71.7 K3 V 7.07 +0.99 +0.84 +0.39 107.4 10.5 107.4 10.5 7.23 c +32 -66 -29 222237 CP-73 2299 3994 GJ 2157 23 37 12 +58 41.6 0.037 27.5 -43.0 K0 V O 7.45 +0.86 053. 07. r 6.07 c +15 -40 +4 222366 BD+58 2627 AG+58: 157 Gl 902.1 23 37 13 -33 01.0 0.329 156.6 -8.0 K1 V 7.19 +0.81 +0.42 +0.28 041.0 22.2 053. 08. r 5.81 d -2 -30 +6 222335 CD-33 16646 Gl 903 23 37 17 +77 21.2 0.171 337.4 -43.1 K1 IVe 3.21 +1.03 +0.94 +0.34 066.5 05.6 066.5 05.6 2.32 b +23 -39 +0 222404 BD+76 928 GAM Cep Gl 904 23 37 23 +05 21.3 0.573 139.0 +5.5 SB? F7 V 4.13 +0.51 -0.00 +0.19 072.5 05.6 072.5 05.6 3.43 b -8 -26 -26 222368 BD+04 5035 3995 IOT Psc NN 4358 23 37 44 +60 24.9 0.240 162. M2 L 11.41 +1.57 +1.20 +0.89 054. 10. r 10.07 d G241-062 Gl 904.1A 23 38 19 +20 05.3 0.231 73.4 -18.6 K2 H 8.32 +1.11 J+1.08 J 045.0 17.0 056. 10. r 7.06 d -16 -19 +11 222474 BD+19 5135 G068-035 ADS 16923 V(AB) = 8.27 d(m) = 3.4 Gl 904.1B 23 38 19 +20 05.3 0.231 73.4 11.7 * 045.0 17.0 056. 10. r 10.4 * d sep 0.9" 184d - 0.7" 236d (1888-1954) Gl 905 23 39 26 +43 55.2 1.617 177.0 -77.7 dM6 e W 12.29 +1.90 +1.48 +1.55 315.6 01.6 315.6 01.6 14.79 a +33 -74 +0 G171-010 549 Ross 248 Wo 9835 23 39 38 -02 50.9 0.422 210. +25. dM0 W 10.32 +1.38 +0.62 043. 08. r 8.49 d +41 -9 -32 BD- 3 5691 G157-092 V345 LTT 9665 Wo 9836 A 23 40 08 -14 49.3 0.116 122.6 -2.1 SB B9 V 4.48 -0.04 -0.12 039.7 10.2 039.7 10.2 2.5 e -7 -12 -3 222661 BD-15 6476 Wo 9836 B 23 40 08 -14 49.3 0.116 122.6 11. * 039.7 10.2 039.7 10.2 9. * e GJ 1288 23 40 23 +30 32.9 0.438 231.4 m 14.36 +1.77 +1.38 081.9 02.6 081.9 02.6 13.93 a G130-003 6 GJ 1289 23 40 33 +36 15.7 0.936 098.3 -6. k 12.57 +1.60 +1.64 +1.29 123.0 02.9 123.0 02.9 13.02 a -28 -21 -11 G130-004 4003 Gl 905.2A 23 41 23 +32 19.0 0.233 256. -24.3 dM5 11.67 +1.56 +1.18 +1.09 055.6 01.7 055.6 01.7 10.40 a +25 -14 +12 G130-006 AC+32:86422 Gl 905.2B 23 41 21 +32 16.2 0.233 256. +17. DA4 12.90 +0.15 -0.61 055.6 01.7 055.6 01.7 11.63 a +26 -17 +14 G130-005 W162 LTT 16991 LP 347-415 L 1512-34B AC+32 86401 PG NN 4359 q 23 41 32 +64 27.8 0.548 81.7 M1.5 K 11.30 +1.40 +1.12 022.5 09.0 049. 11. r 9.75 d G241-068 4006 LTT 16992 LFT 1821 Ross 676 AC+64:8806 GJ 1290 23 41 48 +21 19.3 0.428 79. m 13.30 +1.59 +1.20 045.1 04.0 045.1 04.0 11.57 b G068-037 NN 4360 23 42 58 -16 26.5 0.684 215.3 m 14.5 * +1.55 111. 19. r 14.7 * d G273-130 4009 LP 823-4 Gl 906 23 43 18 +35 58.6 0.300 79. -21.8 dM0 W 9.90 +1.35 +1.20 +0.58 055.5 11.9 055.5 11.9 8.62 d -18 -28 +7 G130-009 V347 AC+36:64438 NN 4361 23 43 52 -50 59.5 0.502 203.7 m 14.6 * +1.32 050. 08. r 13.1 * d 4012 LFT 1824 LTT 9699 L 288-117 Gl 907 23 45 31 +48 44.2 0.652 83.5 +27. M1.5 K 12.07 +1.66 +1.34 065.6 09.7 065.6 09.7 11.15 d -53 +5 -12 G171-019 4015 Ross 249 Gl 907.1AB 23 45 50 -13 15.9 0.188 88. -3.4 dM0 W 9.86 +1.26 J+1.13 J+0.62 J 044. 08. r 8.08 d -18 -9 -2 BD-13 6464 G273-141 V212 RST 4134 sep 1.5" d(m) = 1.5 , V(AB) = 9.62 NN 4362 23 46 02 -27 56.1 0.593 244.0 M3.5: K 12.4 * +1.06 053. 11. r 11.0 * d G275-106 4016 LFT 1827 LTT 9718 L 649-24 LP 935-18 Gl 908 23 46 36 +02 08.2 1.370 133.4 -71.3 M2 Ve 8.98 +1.48 +1.09 +0.85 177.9 05.6 177.9 05.6 10.23 a -9 -68 +41 BD+01 4774 G029-068 550 V082 NN 4363 23 46 42 +09 49.3 0.345 172. dM4 : 13.57 +1.19 047. 09. r 11.93 d G029-069 LTT 17016 Rob 379 NN 4364 23 47 04 +08 04.8 M1 s 11.39 +1.45 +1.14 +0.80 040. 07. r 9.40 d Steph 2166 NN 4365 23 47 23 +29 17.8 0.531 190.8 DA9 15.72 +0.58 -0.24 047.0 04.1 047.0 04.1 14.08 b G130-015 4019 W506 NN 4366 s 23 47 31 +02 35.8 0.501 67.6 -26.8 G7 V 8.36 +0.74 +0.35 +0.24 039.1 09.3 025. 04. r 5.35 d -93 -26 +20 223498 BD+02 4723 G029-072 4020 LTT 17022 GJ 1291 AB 23 47 39 -29 40.8 0.192 83.4 K1 V 7.94 +0.84 +0.43 +0.30 040. 06. r 5.95 d 223515 CD-30 19702 G275-113 U619 BPM 68764 comp in 2.5", d(m) = 7 Gl 908.1 23 47 55 +30 04.5 0.260 87.1 -3.1 dK8 M 9.34 +1.26 +1.19 +0.49 042.8 08.3 048. 06. r 7.75 c -22 -13 -3 BD+29 5007 G130-016 V868 NN 4367 23 47 55 -09 49.9 0.756 124.0 m 13.45 +1.26 066. 12. r 12.55 d G273-147 4021 LP 763-12 NN 4368 23 48 01 +09 40.0 0.668 60.9 M1 L 11.50 +1.45 +1.13 +1.07 077. 16. r 10.93 d G029-073 4022 LTT 17025 NN 4369 23 48 23 +38 13.1 0.236 204. m 14.18 +1.25 045. 08. r 12.45 d LP 291-24 NN 4370 23 49 12 +06 41.8 0.297 189. m 12.73 +1.12 054. 11. r 11.39 d G030-026 LTT 17035 Wo 9843 s 23 49 32 +77 19.4 0.278 107.9 +0.8 F5 V 6.56 +0.43 -0.12 040.8 13.6 024. 03. s 3.46 c -45 -16 -28 223731 BD+76 934 LTT 17037 NN 4371 23 49 48 -14 57.9 0.523 120.1 m 15.5 * +1.45 052. 08. r 14.1 * d G273-151 4032 LP 823-8 Gl 909 A 23 49 57 +75 15.9 0.309 79.6 +1.7 SB K3 V 6.40 +0.98 +0.71 +0.38 096.5 02.9 096.5 02.9 6.32 a -14 -6 +0 223778 BD+74 1047 G242-042 Gl 909 B 23 49 57 +75 15.9 0.309 79.6 M2 K 11.7 * 096.5 02.9 096.5 02.9 11.6 * a Gl 909.1 s 23 50 05 -06 16.3 0.460 92. -28.8 K4 K 9.53 +1.08 +1.02 +0.53C 045.1 13.6 031. 06. r 6.99 d -61 -44 +9 223782 BD-06 6308 G031-012 Gl 910 23 50 36 +28 44.4 0.15 290. +1.3 dM0 e M 9.74 +1.39 +1.25 +0.59 060.4 15.3 052. 08. r 8.32 d +9 +8 +6 BD+28 4660 V213 NN 4372 23 51 28 -41 49.4 0.536 112.3 M4 K 13.3 * +1.07 039. 10. r 11.3 * e 4038 LFT 1834 LTT 9766 L 433-62 NN 4373 23 51 38 +51 24.4 0.260 76. m 13.52 +1.17 045. 09. r 11.79 d G217-023 NN 4374 23 51 54 +07 53.0 0.297 261. M3: K 13.01 +1.50 +1.10 043. 09. r 11.18 d G030-028 LTT 17044 LP 583-82 LE 31 Rob 382 Gl 911 23 52 12 -22 03.3 0.132 344.8 +18. dM0.5 W 10.87 +1.47 +1.22 +0.72 039.7 07.9 039.7 07.9 8.86 d -1 +19 -15 BD-22 6219 V348 NN 4375 p 23 52 29 +28 21.3 0.578 86.3 -18.1 SB K1 V 7.38 +1.01 +0.66 +0.48 034.0 08.6 034.0 08.6 5.0 e -68 -47 -3 224085 BD+27 4642 G130-024 4044 LTT 17045 LFT 1838 NN 4376 23 52 50 -04 15.8 0.520 88.2 m 13.95 +1.19 040. 08. r 11.96 d G031-015 4046 Gl 912 23 53 07 -06 24.9 0.580 232.4 M2 K 11.15 +1.48 +1.14 +0.98 062.3 18.9 069. 16. r 10.3 e BD-06 6318 G031-017 4047 NN 4377 23 53 35 -39 19.7 0.285 131.1 K3 V 8.21 +0.96 047. 06. r 6.57 c 224228 CD-39 15200 G267-001 LTT 9795 NN 4378 A 23 54 46 -13 15.5 0.193 84. M4 s 12.93 +1.23 056. 08. r 11.67 d G273-186 LP 704-15 NN 4379 B 23 54 45 -13 15.4 0.193 84. M4 s 12.98 +1.11 056. 08. r 11.72 d G273-185 LP 704-14 sep 20" 294d GJ 1292 23 55 07 +23 02.4 1.460 135.0 k-m 11.72 +1.54 +1.05 +1.14 072.1 02.6 072.1 02.6 11.01 a G129-047 551 NN 4380 23 55 11 +19 29.9 0.486 164.0 m 13.01 +1.16 055. 11. r 11.71 d G129-048 5411 NN 4381 23 55 18 +38 21.2 0.237 225. m 12.64 +1.13 059. 12. r 11.49 d LP 291-34 NN 4382 23 55 34 +50 10.0 0.251 347.4 -3.2 dG2 6.64 +0.66 +0.19 047. 06. r 5.00 c -1 +2 +25 224465 BD+49 4291 LTT 17065 NN 4383 23 55 59 +07 23.1 0.367 166.3 M3 K 11.74 +1.51 +1.18 +1.10 056.6 2.9 056.6 2.9 10.50 b G030-033 LTT 17066 USNO 785 Gl 913 23 56 07 +46 27.0 0.642 90.3 +3.6 dM0.5 W 9.62 +1.44 +1.19 +0.74 060.0 08.0 060.0 08.0 8.51 c -46 -19 -11 BD+45 4378 G171-029 4054 V214 NN 4384 ABs 23 56 56 +33 26.8 0.107 211.8 -7.6 F8 V 6.47 +0.55 J-0.06 J 042.1 07.6 036. 04. r 4.25 c +13 -7 -5 224635 BD+32 4747 BS 9074 ADS 17149 V(AB) = 5.81 d(m) = 0.2 ; sep 1.5" NN 4385 23 57 12 +47 29.2 0.893 103.7 m 16.10 +1.87 059.8 08.2 059.8 08.2 14.98 c 4057 USNO 786 LP 149-14 NN 4386 23 57 12 -44 21.0 0.276 356. M7 S 12.82 +1.64 +1.11t 054. 12. r 11.48 d LTT 9828 LP 988-175 L 433-153 BPM 45308 Sm 148 NN 4387 23 57 14 -34 22.9 0.952 131.1 M4 K 12.8 * +1.22 078. 14. r 12.3 * d G267-011 4058 LFT 1844 LTT 9829 L 577-87 LP 936-49 GJ 1293 23 58 51 -17 13.4 0.359 132.8 +8. dM1.5 W 10.80 +1.40 +0.66 039. 08. r 8.76 d -13 -38 -19 BD-17 6862 G266-026 V350 NN 4388 23 59 21 -37 30.5 0.050 209.5 K1 III 7.06 +1.06 +0.90 045.5 44.3 045.5 44.3 5.4 f 224936 CD-37 15469 Wo 9848 x 23 59 22 +25 44.0 0.696 206.1 K3 K 11.30 +0.94 +0.52 +0.38 040.8 18.8 040.8 18.8 9.4 f G130-036 1004 LTT 17087 LFT 1847 Ross 679 AC+26:41 Gl 914 A 23 59 33 +26 49.0 1.305 139.7 -37.6 SB G3 V 5.81 +0.67 J+0.05 J+0.31 J 079.6 03.2 079.6 03.2 5.31 a -10 -78 -36 224930 BD+26 4734 101 BS 9088 ADS 17175 V(AB) = 5.75 d(m) = 3.20 Gl 914 B 23 59 33 +26 49.0 1.305 139.7 K6 V 9.0 * 079.6 03.2 079.6 03.2 8.5 * b a = 0.83" P = 26.27 yr Gl 915 23 59 34 -43 26.1 0.915 137.7 DA5 13.05 +0.07 -0.87 +0.16 128.2 06.4 128.2 06.4 13.59 b 1005 W165 LTT 9857 LP 988-88 L 362-081 BPM 45338 GJ 1294 A 23 59 34 -68 33.4 0.287 134.7 M0 V U 9.66 +1.39 J+1.18 J+0.68 J 060. 12. r 8.55 d 224953 CD-68 2373 U623 LTT 9859 L 86-80 CP-68:3594 V(AB) = 9.30 d(m) = 1.0 GJ 1294 B 23 59 34 -68 33.4 0.34 140. 10.6 * 060. 12. r 9.5 * d sep 1.5" 95d - 3.7" 120d (1912-1955) gliese3-0.95/Changelog0000644000175000017500000000142710106205503016264 0ustar kmccartykmccarty00000000000000Changelog: starconvert specification file for Gliese data catalog version 3-0.95: take advantage of new starconvert substitution rule to add less common star names appended after Bayer designations. add Kapteyn's Star. version 3-0.93: changed package name to gliese3 take advantage of new starconvert features version 3-0.92.1: changed package name to starplot-gliese-3 added debian/ directory and Changelog version 3-0.92: renumbered version to reflect versions of database, StarPlot added more substitutions for companion stars added versions of BD designations sans degree ° sign version 1.1: added more HD number -> Bayer designation substitutions and also some HD number -> Flamsteed substitutions version 1.0: original file gliese3-0.95/gliese3.spec0000644000175000017500000002101510106202001016642 0ustar kmccartykmccarty00000000000000# starconvert specification file for Gliese data catalog # version 3-0.95 comments; 189; 257 [coordinates] type; celestial ra-hours; 13; 14 ra-min; 16; 17 ra-sec; 19; 20 dec-sign; 22 dec-deg; 23; 24 dec-min; 26; 29 [characteristics] specclass; 55; 66 distance; milliarcsec; 109; 114 magnitude; absolute; 122; 126 [systems] component; 9; 10 separation; comments; a = ; Sep; sep [names] bayer; comments # e.g. "Alpha Cen", "Tau Cet" flamsteed; comments # e.g. "40 Eri" const-specific; comments # includes, e.g., "q Car", "VV Ori" other; comments; Ross; Wolf other; 147; 152; HD # Henry Draper catalog number dm; 154; 165 # Durchmusterung number BD / CD / CP other; comments; L = Luyten # i.e. substitute "Luyten" for "L" other; 167; 175 # for Gliese catalog, this field is the Giclas number other; 177; 181; LHS # for Gliese catalog, this field is LHS number other; 183; 187 # for Gliese catalog, includes some other designations other; 1; 8 # for Gliese catalog, includes Gliese and Woolley des. # A whole bunch of other designations appear in the Gliese catalog "Remarks" # field, out of which I have no idea which ones are "preferred" by # astronomers; hence, they're alphabetical. Rearrange as you like. other; comments; ADS; BPM; BS; CFS; DON; FK; GD; GJ; GR; GSC other; comments; Hei; Hy; IE; LDS; LE; LFT; LP; LTT; MW; NSV other; comments; PG; PS; RGO; Rob; RST; SA; San; Sm; Steph other; comments; USN; USNO; VA; VB; VVO; Wo; Wor; WOR [substitutions] case-insensitive # Well-known common names of stars in the Gliese catalog: Alpha CMa; Sirius Alpha Boo; Arcturus Alpha Lyr; Vega Alpha Aur; Capella Alpha CMi; Procyon Alpha Aql; Altair Alpha Tau; Aldebaren Beta Gem; Pollux Alpha PsA; Fomalhaut Alpha Gem; Castor # Gliese et al missed a lot of Bayer designations, so I've filled them in here. # There are probably others which I have missed. HD 739; Theta Scl HD 3003; Beta(3) Tuc HD 3302; Lambda(2) Phe HD 11171; Chi Cet HD 17094; Mu Cet HD 18907; Epsilon For HD 33111; Beta Eri HD 39091; Pi Men HD 40183; Beta Aur HD 56537; Lambda Gem HD 71878; Beta Vol HD 79096; Pi(1) Cnc HD 81997; Tau(1) Hya HD 95418; Beta UMa HD 96202; Chi(1) Hya HD 101198; Iota Crt HD 116656; Zeta UMa # Mizar; see below HD 118098; Zeta Vir HD 124850; Iota Vir HD 125161; Iota Boo HD 129502; Mu Vir HD 129972; Omicron Boo HD 130819; Alpha(1) Lib HD 130841; Alpha(2) Lib HD 134505; Zeta Lup HD 137108; Eta CrB HD 137391; Mu(1) Boo HD 137392; Mu(2) Boo HD 138905; Gamma Lib HD 141795; Epsilon Ser HD 142908; Lambda CrB HD 144070; Xi Sco HD 144197; Delta Nor HD 146362; Sigma CrB HD 146686; Gamma(2) Nor HD 146791; Epsilon Oph HD 147449; Sigma Ser HD 152786; Zeta Ara HD 153580; Epsilon(2) Ara HD 154906; Mu Dra HD 156164; Delta Her HD 160922; Omega Dra HD 162004; Psi(1) Dra HD 164764; Tau Oph HD 175190; Nu(2) Sgr HD 177241; Omicron Sgr HD 177716; Tau Sgr HD 177724; Zeta Aql HD 181577; Rho(1) Sgr HD 184406; Mu Aql HD 191862; Xi(2) Cap HD 197157; Eta Ind HD 201184; Chi Cap HD 202730; Theta Ind HD 210418; Theta Peg HD 211336; Epsilon Cep HD 212061; Gamma Aqr HD 215665; Lambda Peg HD 215789; Epsilon Gru HD 216131; Mu Peg HD 216336; Gamma PsA HD 216385; Sigma Peg HD 216435; Tau(1) Gru HD 219571; Gamma Tuc HD 219693; Phi Gru HD 219784; Gamma Scl HD 222107; Lambda And HD 222661; Omega(2) Aqr # Here are a large number of HD -> Flamsteed conversions. # (Gliese et al included very few Flamsteed numbers in their catalog.) HD 693; 6 Cet HD 1835; 9 Cet HD 3196; 13 Cet HD 3651; 54 Psc HD 4307; 18 Cet HD 4676; 64 Psc HD 7439; 37 Cet HD 10476; 107 Psc HD 13612; 66 Cet HD 15814; 29 Ari HD 16141; 79 Cet HD 16739; 12 Per HD 18803; 51 Ari HD 19994; 94 Cet HD 22484; 10 Tau HD 25680; 39 Tau HD 25998; 50 Per HD 29503; 53 Eri HD 30495; 58 Eri HD 32537; 9 Aur HD 32923; 104 Tau HD 33021; 13 Ori HD 33256; 68 Eri HD 35296; 11 Tau HD 37507; 49 Ori HD 43042; 71 Ori HD 43386; 74 Ori HD 50635; 38 Gem HD 50692; 37 Gem HD 58855; 22 Lyn HD 64096; 9 Pup HD 68146; 18 Pup HD 70958; 1 Hya HD 78209; 15 UMa HD 78418; 75 Cnc HD 79028; 16 UMa HD 79439; 18 UMa HD 81937; 23 UMa HD 82210; 24 UMa HD 86146; 19 LMi HD 86728; 20 LMi HD 87696; 21 LMi HD 89125; 39 Leo HD 89449; 40 Leo HD 90839; 36 UMa HD 95128; 47 UMa HD 99491; 83 Leo HD 100563; 89 Leo HD 101501; 61 UMa HD 106251; 12 Vir HD 110897; 10 CVn HD 111998; 38 Vir HD 115202; 57 Vir HD 115383; 59 Vir HD 115617; 61 Vir HD 116842; 80 UMa # Alcor; see below HD 116976; 69 Vir HD 117176; 70 Vir HD 119756; 1 Cen HD 123999; 12 Boo HD 124206; 50 Hya HD 125451; 18 Boo HD 132052; 16 Lib HD 134083; 45 Boo HD 142267; 39 Ser HD 143333; 49 Lib HD 146233; 18 Sco HD 149661; 12 Oph HD 153597; 19 Dra HD 155886; 36 Oph HD 157214; 72 Her HD 157792; 44 Oph HD 160269; 26 Dra HD 160915; 58 Oph HD 165341; 70 Oph HD 165777; 72 Oph HD 165908; 99 Her HD 168151; 36 Dra HD 173667; 110 Her HD 174116; 29 Sgr HD 180777; 59 Dra HD 182572; 31 Aql HD 186408; 16 Cyg HD 187013; 17 Cyg HD 190406; 15 Sge HD 198809; 31 Vul HD 207978; 15 Peg HD 212698; 53 Aqr HD 212754; 34 Peg HD 217014; 51 Peg HD 219080; 7 And HD 219834; 94 Aqr HD 224930; 85 Peg # You can substitute more than once for the same star, but the substitutions # have to be in the right order. Zeta UMa; Mizar # follows "HD 116656" -> "Zeta UMa" substitution above 80 UMa; Alcor # follows "HD 116842" -> "80 UMa" substitution above # A few less well-known common names of stars. # These should be inserted after their Bayer designations in priority. # This only works with starconvert >= 0.95: Alpha Cen; Rigil Kent; 2 Beta Leo; Denebola; 2 Alpha Oph; Ras Alhague; 2 Beta UMa; Merak; 2 Delta UMa; Megrez; 2 Epsilon UMa; Alioth; 2 # Well-known nearby dwarf stars G001-027; van Maanen's Star HD 33793; Kapteyn's Star HD 95735; Lalande 21185 BD +04°3561a; Barnard's Star # Companion stars HD 10360; P Eri B HD 60178; Castor B HD 98230; Xi UMa B HD 110380; Gamma Vir B HD 114379; Alpha Com B HD 116657; Mizar B HD 128621; Alpha Cen B HD 144069; Xi Sco B HD 154905; Mu Dra B HD 155885; 36 Oph B HD 177475; Gamma CrA B HD 201092; 61 Cyg B Gl 23; 13 Cet B Gl 105.4; Epsilon Cet B Gl 106.1; Gamma Cet B Gl 171.1; Aldebaren B Gl 188; 104 Tau B Gl 194; Capella B Gl 271; Delta Gem B Gl 291; 9 Pup B Gl 337; Pi(1) Cnc B Gl 351; Psi Vel B Gl 354; Theta UMa B Gl 366.1; Theta Ant B Gl 387; 39 Leo B Gl 527; Tau Boo B Gl 550.2; Phi Vir B Gl 560; Alpha Cir B Gl 566; Xi Boo B Gl 575; I Boo B Gl 635; Zeta Her B Gl 656.1; Eta Oph B Gl 695; Mu Her B Gl 816.2; Eta Cap B Gl 822; Delta Equ B Wo 9220; 38 Gem B W049; Sirius B W053; Procyon B LHS 122; Eta Cas B LHS 459; 70 Oph B LHS 3325; Mu Her B BD -02°2902; Tau(1) Hya B BD -03°335; 66 Cet B