TABLE 1
HBC V-R V-I VRI Infrared UV,Xray Radio Light v sini Radial RV Spectral Sp. W(H
) H Spectrum ID Location
No. ref. refs. refs. refs. curve (km/s) vel. ref. type ref. ref. ref. Type ref.
1 90 A5,F:e 93 31 93 90 317 Cep OB4
324 90 A5e 90 18 93 90 90 Cep OB4
2 93 K7,M0 93 200 93 93 tt 203 L1265
3* +1.36 +2.55 J 91, * 8 71 B,Ae * 85v 91, 93,312 ae 203 L1265
71 93
325 71 2, 3, 93 8 B5e 93 37 93 93 ae 203 L1265
326 90 K1 90 15 93 90 tt 90 Cep OB4
4 90 K4 90 24 93 90 tt 317 Cep OB4
5 90 K4 90 48 93 90 tt 317 Cep OB4
327 K5 90 15 93 90 tt 90 Cep OB4
328 90 K4 90 5.1 93 90 tt 90 Cep OB4
329* J 269 155 43 A0,3e V 276, 20v 276 530,276 * *
530
6 K1 93 27 93 93 tt 203 L1291
330* 3, 32,316 243 8 B:eq * 78: 93, 203, 93, ae 203 NGC 225
139 152,452
7* B3e 93 50 93 93 * 203 NGC 225
331 K5 93 35 93 93 tt 203 L1301,02
332 K7,M0 93 38 93 93 tt 203 L1302
333 cont 93 43 93 93 203 L1302
334* +0.78 +1.66 J 349 B1e 85 pr 85 85 a? 420 anon
8* 82, 93 M0 93 31 93 93 tt hrc L1454,57
9* 93 M2 93 30 93 93 tt hrc L1454,57
10 82, 93 + 9 c 212 K5 V(Li) 212 85 93, 93 tt hrc L1454,57
480
335 early M 118a pr 118a 118a
336* 247 * pr 247 L1382,83
337 K7 312 99 93 93,312 tt 93 B203
338* G8 * 458 pr * 458,118a tt 315 L1452
339 ? 93 32 93 312 tt B204
340 455, 97 K7 93 13 93 93 B205
341 455 M4.5 93 14 93 93 tt 93 B205
342 K7 93 10 93 93 B205
343 M0.5 93 2.6 93 93 93 L1452
11 82, 93 K7,M0 93 7.7 93 93 tt hrc L1452
344 97,309,455 M1 218 pr 218 450 B205
345 +1.42 +2.94 J 450 450 243 M0: 450 pr 450 450 451 B205
346* +3.5: 160 97,309,455 442 K? * 160 pr 160 160 218 B205
12 82, 93,455 K7,M0 93 31 93 93 tt hrc B205
13 82, 93,455 K3 93 186 93 93 tt hrc B205
347 +0.53 +1.04 C 506 506 134 >75 +15: b 506 K1 (Li) 506 hk 506 506 wt 134
14 93 M0 93 53 93 93 tt hrc L1452
15 82, 93 K2 93 51 93 93 tt 170 B1
16 93 M1 93 78 93 93 tt 170 B205
348* 155 A3e 515 pr * ? 515 L1472
17 454 K: hrc pr 198 198 IC 348
18 454 pr 198 198 IC 348
19 93,454 K3 93 16 93 93 tt hrc L1472
20* 82, 93,454 G3: * 93 20 93 93 tt hrc L1472
21 82, 93 K6 93 48 93 93 tt hrc L1449
22 93 K7,M0 93 44 93 93 tt hrc L1449
349* 80,155, 3 47 95: * A5:e * pr ae BD L1449
350* * * 130: * Aep+shell * pr ae BD L1449
351 +0.70 +1.41 C 506 506 134 29 +9.1 a 506 K5 (Li) 506 1.6 506 506 wt 134
352 +0.51 +1.03 C 506 506 134 G0 (Li?) 506 hk 506 506 134 L1472
353 +0.56 +1.13 C 506 506 134 <10 +15.1 a 506 G5 (Li) 506 hk 506 506 wt 134 L1472
354 +0.69 +1.32 C 506 134 <10 + 9.8 a 506 K3 (Li?) 506 hk 506 506 134
355* +0.54 +1.07 C 506 506 134 26 +11.1 a 506 K0 (Li) 506 * 506 506 wt 134
356* +0.63 +1.24 C 506 506 506 >75* 506 * 0.9 506 506 134 L1501
357* +0.63 +1.24 C 506 506 134 >75* 506 K2 (Li)* 506 1.8 506 506 wt 134 L1501
358 +1.12 +2.67 C 506 506 134 M2 (Li) 506 7.8 506 506 wt 134 L1501
359 +1.08 +2.43 C 506 506 134 <10 +14.2 a 506 M2 (Li) 506 2.4 506 506 wt 134 L1501
360 +1.25 +2.73 C 506 134 M3 (Li) 506 7.6 506 506 wt 134 anon
361 +1.17 +2.68 C 506 134 20 +16.2 a 506 M3 (Li) 506 5.7 506 506 wt 134 anon
362 +1.07 +2.37 C 506 506 134 14 +14.8 a 506 M2 (Li) 506 4.0 506 506 wt 134 anon
363* 98 Mp 98 abs 98 98 98 L1473
364* 98 M2.5 III,IV 98 18 98 98 tt 98 L1473
365* +1.15 +2.65 C 219 219 23 + 5 ? * M4 V(lLi) 219 4 192 wt 219 B209
366* +12 b 212 M0 V(Li) 212 3 219 wt 219 B209
367* +0.85 +1.69 C 408 410 243 305 408 +16 b 212 K3 V(Li) 212 4 219 404 wt 410 B209
23 +0.82 +1.98 C 410 410 hrc M0 93 71 93 404, 93, tt 410 B209
458
24 404, 93 M5 93 25 93 tt 410 B209
25* +0.94 +1.76 C 407, 82,410,100 36 +14.5 a * K3 V(Li) 93, 135 93, * tt 410 B209
410 500 123
368 +1.04 +2.30 C 219 219 var? 192 M1 V(Li) 219 v? 192 219 B209
26 +1.13 +2.51 C 406 406 +22 b 212 M4 V(Li) 212 38 93 93,404, tt 410 L1495
257
369* 93 M2 93 117 93 93 tt * B209
27 +1.09 +2.42 C 410 410 20 +19.0 a 189 M2.5 93 20 93 93 tt 410 L1495
370 26 +16.9 a 192 K7: V(Li) 219 5 219 wt 219 B7
28 +0.98 +2.18 C 406 410 hrc 11 +19.1 a 189 M1 V(Li) 212 70 93 93 tt 410 B7
371 +1.02 +2.23 C 219 219 38: +15 b 192 M2 V(Li) 219 4 219 wt 219 B7
29* +0.71 +1.42 C 408, 82,410 220 hrc,409, 73 +18: b 189, K3 V(Li) 212 3v 93, 93,220, wt 410 B7
* 390 488 236 458
30 +1.02 +2.56 C 406 82,410,100 +28: c 257 M1 93 182 93 93,404, tt 410 IC 359
257
31 +1.21 +2.95 C 406 82,410,100 +44: c 257 M1.5 93 4 93 93,257 tt 410 IC 359
372 +0.66 +1.27 C 506 506 134 <10 +15.8 a 506 K5 (Li) 506 hk 506 506 134
373* +1.2: i 128 93,128 A6e 93 13 93 93,128 ae * IC 359
374* 13 +15.0 a 189 K7 (Li) 212 3 93 93 wt * IC 359
375* ? 93 70 93 93 IC 359
376 +0.69 +1.36 C 506 134 68 +18: b 506 K7 (Li) 506 0.7 506 506 wt 134
377* M2 93 114 93 93 tt * L1495
32* +0.85 +1.66 C 492 82,410,100 65,243 492,hrc ^10 +15.8 a 189 K7 V(Li) 212 40 93 * tt 410 L1495
378* +1.00 +2.08 C 506 506,409 504 305 * <15 +12 b 344 K7 V(Li) 344 1.7 344 502 wt 410 B7
379 +0.92 +1.95 C 506 506 134 <10 +16.4 a 192, K7,M0V(Li) 219, 4 219, wt 219 L1495
189 506 506
33 +1.07 +2.30 C 410 82,410 65,243 hrc ^10 +14.9 a 189 M2: V(Li) 212, 54 93 93,458 tt 410 L1495?
93
34* +0.67M +1.38 C 492,410,284,404 220, 65, 511,236, 53 +16.4 * 189, K1IV,V(Li) 212 20v * * tt 410, B214
* 438 534,528 488 206
380* +0.70 +1.21 J 505 505 505 505 110: +15 b 505 G5 IV(Li) 505 abs 505 505 su BD B214
381* 490 56 ? 99 pr 347 347, 99 tt 345, B213
347
382 60: +6: c 192 M3,4 (Li) 219 6 219 tt 219 B214
383 +1.21 +2.53 C 490 93,490 56 M1 93 57 93 tt 182 B213
35* +0.76 +1.44 C 226, 87,284,410 54, 65, 96,101, *,228 20 +19.1 a 189, K0IV,V(Li) 212 60: * * tt 410 L1546
* 159,220 424,425 46
384 cont 118a pr 118a 118a tt C B18
385 +0.95 +1.93 C 219 219 <11 +14.8 a 192 M0: V 219 11 219, 219 B19
192
386* 93 K5 93 23 93 93 tt 182 B217
387* 93 M3.5,4 93 20 93 93 tt * B217
36* +0.76 +1.74 C 409 80, 82,410, 243 hrc 22: +12 b 212, M0,1 V(Li) 93, 60 93, * tt 410 L1521
155,100 46 500 *
37* +0.83 +1.69 C 407, 82,410,100 65,131 96 hrc M ? * 113 93 * tt 410,B217
410 347
388 +0.46 +0.89 C 506 506 134 16 +15.0 a 506 K1 (Li) 506 hk 506 506 wt 134 L1546
389* 128 101 128 K3,5 160, pr 99,160, 128, B18
99 312,128 451
38 +1.12 +2.39 C 410 82,410 hrc +18 b 212 M1 V(Li) 212 53 93, 93,257, tt 410 B19
480 303
39* +1.05 +2.12 C 410 82,410 hrc 11 +16.0 a 189 M0 V(Li) 212 2 93 93,257, wt 410 B19
303,458
390* 28 M0 (Li) 2.0 wt 28 NGC 1579
41* +1.07 +2.21 C 407 82,410 12 +15.3 a 189 M0.5 93 7.8 93 93 tt 410 B218
40* 3 57, 96, F?e * 588 93 93,326 ? 200 NGC 1579
28, 86
391* 28 K7 (Li) 2.3 wt 28 NGC 1579
42* +1.04 +2.38 C 406 404 +18 b 212 M1 V (Li) 212 4.0 93 93 wt 410 L1551
43* +0.93 +1.70 J 328, 82,410 243 hrc 26 +15.6 a 189, K2 V(Li) 212 3.9 93 93,212, wt 410 L1551
410 46 303,458
44 +1.19 +2.65 C 410 82,410 ^10 +16.8 a 189 M1 93 10 93 93 tt 410 B18
45* +0.85 +1.73 C 409, 82,410,100 hrc 12 +15.3 a 189 K7 V(Li) 212, * 93,303 tt 410 L1521
410 93
46* +1.28 +3.04 C 407 407 M3: 15 * tt 410 B18
47 +1.23 +3.10 C 410 93 19 +19.6 a 189 M5.5 93 4.7 93 93 tt 410 B18
392 +0.72 +1.38 C 506 506 134 17 +16.5 a 506 K5 (Li?) 506 0.2 506 506 wt 134 L1551?
393* * 442, 35, K2 III: 346, 346, 67 ? * L1551
441 67
394 M5.5 93 47 93 110 L1551
49* +1.04 +2.16 C 406, * hrc 453, K7,M2? * 55: 93, * tt 410,L1551
410 123 123 *
50 +0.81 +1.77 C 405, 82,410,100 256,hrc M3 93 274 93, 93,404, tt 410 L1551
410 91 303,458
48 +1.46 +3.02 C 406 82,410 22 +16.3 a 189 M0.5 93 29 93 93 tt 410 B18
395* 15 +20.1 a 189 M3 93 3.3 93 93,404 wt 410 L1551
51* +1.19* +2.66 C 407 82,410 17 +20.7 a 189 M1 93 48 93 93,404 tt 410 L1551
396 93 cont 93 88 93 93 tt 250 B18
397* +0.75 +1.45 C 506 134 27 +18.8 * 506 K7 (Li) 506 0.5 219, 506 wt 134 L1551
506
398 93 25 +18.3 a 189 M0.5 93 1.2 93 93 wt 93 B18
399* +0.89 +1.84 C 506,406,506 132,243 305 18: +18 b 344, K7,M0 (Li) 344 1.8 344 502 wt 410 L1551
410 46
400* +0.88 +1.76 C 506,406,506 132,243 305 408 <10 +17.8 a 344 K7,M0 (Li) 344 1.6 344 502 wt 410 L1551
410
401 93 K7,M0 93 59 93 tt 93 B18
250
402* 93,100 cont 93 204 93 93 tt 250 B18
54* +1.00 +2.00 C 405 82,410,100 243 ^10 +17.6 a 189 K7 V(Li) 212 54 93 93,404, tt 410 L1551
458
52* +1.66* +3.12 J 328 82,410,100 256,213, var? 123 M1,3: V(Li) * 82 93, * tt 410 B19
301 123
53* 14 +18.5 a 189 M3 V (Li) * 80: 93, 93,256, tt 410 B19
123 123
403 +0.94 +1.86 C 506 506 134 <10 +18.1 a 506 K7 (Li) 506 0.7 506 506 wt 134 L1551
55 +1.05 +2.34 C 407 82,410 28: +18.4 a 189 M2,3 V(Li) 212, 15 93 93 tt 410 B18
93
404 128 K7 V(Li) 13 219 502 tt 250 B18
405* +0.86 +1.71 C 506,407,506 504,243 305 409 29 +19 b 344, K7,M0V(Li) 344 3 344 502 wt 410 B18
409 46
56* +1.10 +2.16 C 492, 82,410,100, 492 12 +18.1 a 189 K6 V(Li) 93, 19 93 93 tt 410,B18
410 492 212 250
59* +2.75 C 404 410 K2 93 12 93 93 tt 410 B19
57* +1.27 +2.28 J 492, 82,410,492 492 17 +18.6 a 189 K7 V(Li) 212 16 93 93 tt 410,B18
410 250
58 +0.94 +1.90 C 406 82,410,100 243 hrc,300 K7 V(Li) 212 105 93 212,303, tt 410 L1528
337,458
406* late M? 93 89 93 93 tt L1551
60 +0.89 +1.71 C 405 82,410,100 hrc K5 93 139 93, 93,404 tt 410 L1551
123
61 +1.05 +2.15 C 406 410 34 11 +16.4 a 189 K7 V(Li) 93, 102 93 93,406, tt 410 L1536
212 458,337
62 +1.00 +2.14 C 406 82,410 ^10 +16.9 a 189 M1: V(Li) 93, 139 93 93 tt 410 L1551
212
407 +0.63 +1.24 C 506 506 134 ^10 +18.4 a 506 G8 (Li) 506 hk 506 506 wt 506 L1551
408* +0.57 +1.10 ? 502 502 502 K0 IV 502 0.5 502 502 ? 502 L1528
63 +0.85 +1.81 C 406 82,498,410 243 11 +16.1 a 189 K7 V(Li) 93, 37 93 93,303 tt 410 L1528
212
64* +1.03 +2.33 C 407 93 M0.5 93 115 93 93 tt 410 L1536
409* K7,M0 V(Li) 1.4 219 wt 184 L1536
65* +1.34 +2.42 J 492 45, 82,410 243,504 45,492 8 +16.1 a 189, M0 V(Li) 45, 12 93 93,303, tt 410 L1528
46 93 45,458
410* 416 K7 IV 416 pr 416 416 tt 416 L1642
411 M1 93 4.6 93 93 93 L1528
412 +1.20 +2.57 C 506 506 506 <30 +20.7 b 506 M2 (Li) 506 9 506 506 wt L1551
413* 416 M * pr * * L1642
66 +1.09 +2.16 C 407 82,410,100 14 +17.7 a 189 K3 93 35 93 93 tt 410 L1536
34
414* 93 101 K7 93 2.0 93 * wt 34 L1536
415* 93 34,101 100: 189 G0:n III * 4.5 93 * su 34 L1536
416 93 M5 93 92 93 93 tt 93 L1536
417 22 +15.6 a 192 M0: V(Li) 219 1 219 wt 219 B19
67 +1.86 +3.37 J 91 82,410 +20: c 212 M0: V(Li) 212, 100 93, 93,303, tt 410 B22
93 123 458,123
418* 93 14 +21.2 a 189 M1 V(Li) 212 4.5 93 93 wt * B22
68* +1.00 +2.19 C 410 82,410 * ^10 +17.8 a 189 M0 V(Li) * 212 4v 236, 93,303 tt 410 L1536
93
419 +0.78 +1.52 C 219 12.5 +17.0 a 192 K5: V(Li) 219 13: 192 wt 219 L1536,41
420 +0.97 +2.01 C 219 219 <11 +15.8 a 192 K7 V(Li) 219 4 219 wt 219 B22
421 M1.5 93 1.8 93 93 93 B23
422 93 20 +14.7 a 189 K7 93 3.1 93 93 wt 93 B22
423 M1 93 3.7 93 93 93 B22
69 +1.42 +2.78 C 407 93 ^10 +15.7 a 189 K7,M0 93 13 93 93 tt 410 B22
70 +1.12 +2.26 C 410 82,410,100 M0.5 93 85 93 93 tt 410 B22
71 +1.27 +2.59 C 407 82,410,100 21 +21.3 b 189 M0 93 81 93 93 tt 410 B22
72 +1.07 +2.09 C 407 82,410 -4: c 212 M0,1 V(Li) 212, 113 93 93,303 tt 410 L1558
410 93
424* 19 +19.5 b 189 K7,M0 93 191 93 93 tt 410 L1558
73* +1.18 +2.38 C 410 82,410 10 +23.2 a 189 K6 93 26 93 93 tt 410 L1558
74* +0.64 +1.30 C 410, 82,410 15, 65, 165, 69 * 87 93, * tt 410 L1558
220 220 123
75* +0.74 +1.44 C 407 82,410 243 ^10 +16.3 a 189 K5 V(Li) * 59 93 93, 1, tt 410 anon
458,303
76* +0.98 +1.91 C 407 410,100 hrc +18 b 212 K7 V(Li) 212 60: 93, 93,303, tt 410 L1513,15
93 123 187,458
425 M 118a pr 118a 118a L1558
77* +0.81 +1.53 C 407 93 65,243 13 +15.0 a 189 K3 V(Li) 212, 96 93 93 tt 410 L1517,19
93
426* +0.60 +1.17 C 506 134 19 +14.5 a 189, K0 V(Li)* 219 1: * 506 wt 219 L1517,19
506
78* +0.25 +0.39 J 91, * * 140 138 B9,A0e+shl 27 139, * ae 203 L1517,19
31 152
79* +0.50 +0.98 C 226,410, 87 65,243 167 67 +16.0 a 189, G2 III(Li) 4v * 93,458, su 203, L1517,19
236 488 303,187 410
427* +0.79 +1.55 C 506 134 <10 +9: * 506 K7 (Li) 506 0.7 506 506 wt 134 L1517,19
428* 84,100 516,177 M2 V 84 pr 84 ? 84 L1438
The original HTML version of the Herbig-Bell Catalog
was prepared by Karen Strom.
Maintained by Alan D. Welty
(welty@stsci.edu)
Last update: 1999 February 19