V/70A Nearby Stars, Preliminary 3rd Version (Gliese+ 1991)

V/70A/catalog.dat The Catalogue (3803 records)

Name ---	Comp ---	DistRel ---	RA DE hms dm	pm (u) arcsec/yr	pmPA deg	RV (n) km/s	Sp (r) ---	Vmag (r) (n) mag	B-V (r) (n) mag	U-B (r) (n) mag	R-I (r) (n) mag	trplx (e) mas	plx (e) (n) mas	Mv (n) (q) mag	U km/s	V km/s	W km/s	HD ---	DM ---	Giclas ---	LHS ---	OtherName ---	Remarks ---
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		+0.95 t		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 4.1	A		00 03 38+ 58 09.5	0.260	76.7	-11.6	G5 V	6.43 c	+0.64 c	+0.11 c		046.5 05.8	046.5 05.8	4.77 c c	-18	-22	+2	123	BD+57 2865	G243-013			ADS 61AB V(AB) = 5.99 d(m) = 0.83
Gl 4.1	B		00 03 38+ 58 09.5	0.260	76.7	-16.0	dG8 W	7.20 c	+0.78 c	+0.33 c		046.5 05.8	046.5 05.8	5.54 c 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 4.2	A		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 4.2	B		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		+1.13 t		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	+0.46 C	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	+0.29 C	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	+0.32 C	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		+1.01 t		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	+0.38 C	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		+1.11 t		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	+0.26 C	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	+0.32 C J	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 31.2	A		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 31.2	B		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 :	+0.21 C	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		+0.91 t		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	+1.70 C	+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		+0.75 t		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	+0.29 C	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		+0.90 t		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		+1.19 C	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	+0.43 C	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 53.1	A		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 53.1	B		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	+0.40 C	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 54.2	A		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 54.2	B		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		+0.87 t		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	+0.38 C	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	+0.30 C	065.9 14.9	082. 15. r	4.53 d	-36	-18	-11	7570	CD-46 346		1220		NU Phe
Gl 55.1	A	p	01 13 19- 69 05.1	0.414	73.9		K2 V	7.80	+0.98 J	+0.82 : J	+0.46 C J	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 55.1	B	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 55.3	A		01 14 05- 69 08.5	0.422	74.0	+4.0	F6 IV J	4.99	+0.47 J	+0.02 J	+0.26 C J	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 55.3	B		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		+0.91 C	045.6 13.6	030. 05. r	8.94 d					CD-48 329				L 293-094 Sm 185
Gl 56.3	A	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 56.3	B	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		+0.85 t		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 57.1	A		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 57.1	B		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 57.1	C		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	+0.38 C	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	+0.18 t	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	+0.57 C	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	+0.21 t	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	+0.32 C	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 81.1	A	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 81.1	B	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	+0.28 C	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	+0.16 C	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		+1.43 t		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 83.4	A	s	02 01 55- 45 39.2	0.333	78.6	+42.7	G3 V	7.31	+0.69	+0.22	+0.37 C	049.4 11.9	037. 07. r	5.15 d	-36	-38	-30	12759	CD-46 604
Gl 83.4	B	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 84.1	A		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 84.1	B		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 84.2	A		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 84.2	B	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 87.1	A	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 87.1	B	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	-0.00 C	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 91.2	A		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 91.2	B		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	+0.02 C	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 :	+0.54 C	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	8.85 v	+1.39	+1.02	+0.77	087.2 10.7	087.2 10.7	8.55 v 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	+1.22 t		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			+1.85 C		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	+0.34 C	047.5 11.9	047.5 11.9	7.1 e	-2	-31	-9	16623	CD-26 957
Gl 105.4	A		02 37 09- 12 05.0	0.276	148.3	+15.7 SB	F5 V	5.50	+0.44 J	-0.01 J	+0.25 C J	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 105.4	B		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	+0.19 t	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 106.1	A		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 106.1	B		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 106.1	C		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	+0.30 C	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	+0.17 t	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 114.1	A		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 :	+0.34 C	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	+1.93 C	+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 118.1	A		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 118.1	B		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 118.2	A		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 118.2	B		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 118.2	C		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 120.1	A		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 120.1	B		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 120.1	C		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	+0.10 C	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		+1.30 C	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	+0.36 C	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	AB	p	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	+1.03 C	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 127.1	A		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 127.1	B		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	+0.30 C	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 130.1	A		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 130.1	B		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	+0.33 C	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	+0.34 C	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 138.1	A	s	03 17 54+ 08 51.3	0.298	103.2	+7.2 SB	dG2 W	8.45	+0.68	+0.16	+0.39 C	050.7 11.9	022. 03. r	5.16 c	-32	-52	+21	20727	BD+08 496	G079-029
Gl 138.1	B	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	+0.27 t	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 140.1	A		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 140.1	B		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	+0.38 C	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 143.2	A		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 143.2	B		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 150.1	A		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 150.1	B		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 154.1	A	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 154.1	B	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	+0.85 t		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 156.1	A		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		+0.62 C	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 J d						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	+0.47 C	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	+0.37 t	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. *			+2.74 C *		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 169.1	A		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 169.1	B		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	7.58 c	+0.81 c				043. 06. r	5.75 c 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 171.1	A		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 171.1	B		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 171.2	A		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 171.2	B		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 173.1	A	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 173.1	B	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 174.1	A		04 38 57- 41 57.5	0.166	242.7	+0.8	F2 V	4.44	+0.34	+0.01	+0.20 C	044.8 23.3	044.8 23.3	2.7 f	+11	+6	-12	29875	CD-42 1587				ALF Cae
Gl 174.1	B		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	+0.22 C	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	7.45 c	+0.90 c				060. 09. r	6.34 c 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	+0.41 t		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	7.60 c	+0.77 c				043. 06. r	5.77 c 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 186.1	A	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 186.1	B	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	+0.24 C	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	+0.40 C	052.1 10.2	052.1 10.2	8.62 d	-9	-58	-24	273011	CP-42 588
Gl 187.2	A	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			+1.46 C		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	+0.26 C	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	+1.88 C	+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	+0.36 C	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	+0.26 C	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	+0.34 C	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	14.85 J	+1.88 J		+1.73 J	096.7 02.5	096.7 02.5	14.78 J 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	+0.09 C	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 J a	+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	+0.20 C	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	1.90 v	+0.03	+0.05		044.3 05.5	044.3 05.5	0.13 v 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	+0.34 C	046.9 10.2	046.9 10.2	6.96 d	-32	-37	+6	40865	CD-37 2534
Gl 225.2	A		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 225.2	B		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 225.2	C		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 231.1	A		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 231.1	B		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		+0.89 C	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	+0.32 C	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	+0.28 C	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	+0.14 C	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		+1.39 C J	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 08.5 d	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	+0.26 C J	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	+0.39 C	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 264.1	A		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 264.1	B		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	+0.60 C	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	+0.20 C	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	+0.35 C	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		+0.84 C	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 275.2	A		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 275.2	B		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