Hostname: page-component-cd9895bd7-gbm5v Total loading time: 0 Render date: 2024-12-25T16:05:21.509Z Has data issue: false hasContentIssue false

The Cooler Supergiants (A to M): Crucial Signposts in the Lifecycles of Massive Stars

Published online by Cambridge University Press:  04 August 2017

Roberta M. Humphreys*
Affiliation:
University of Minnesota

Extract

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

The intermediate and late-type supergiants are the visually brightest stars. They are among the first stellar objects observed in other galaxies and provide our first clues to the conditions of massive star evolution in galaxies of different types. They are not as massive as the hottest and most luminous stars in the upper left of the HR diagram. Nevertheless, these somewhat lower mass stars (≈20−50 M) with relatively cool temperatures play a major role in our efforts to understand massive star evolution. These supergiants are usually considered to be post hydrogen burning stars, and their relative numbers in the HR diagram provide essential comparisons with models for the later stages of massive star evolution. Most importantly, the most luminous cooler supergiants define the stability limit for massive stars in the HR diagram.

Type
Session 2. Main Sequence and Supergiant Stars - II
Copyright
Copyright © Reidel 1986 

References

Appenzeller, I. and Wolf, B.: 1981, in “The Most Massive Stars,” ed. D'Odorico, , Baade, , and Kjar, (Garching: ESO), p. 131.Google Scholar
Barlow, M.J.: 1978, in “Mass Loss and Evolution of 0 Stars,” IAU Symposium #83 (Dordrecht, Reidel), p. 119. Conti, d.P., deLoore, C. Google Scholar
Barlow, M.J.: 1981, in “Wolf Rayet Stars: Observations, Physics, Evolution,” IAU Symposium #99 (Dordrecht, Reidel), p. 149.Google Scholar
Blaauw, A.: 1965, in “Stars and Stellar Systems, Vol. 3, Basic Astronomical Data,” ed. Strand, K. Aa. (Chicago: Univ. of Chicago Press), p. 383.Google Scholar
Brunish, W.M. and Truran, J.W.: 1980a, Astrophys. J. 256, p. 247.Google Scholar
Brunish, W.M. and Truran, J.W.: 1980b, Astrophys. J. Suppl. 49, p. 447.Google Scholar
Chiosi, C.: 1981, in “The Most Massive Stars,” ed. D'Odorico, , Baade, , and Kjar, (Garching, ESO) p. 27.Google Scholar
Chiosi, C., Nasi, E., and Sreenivasan, S.R.: 1978, Astron. Astrophys. 63, p. 103.Google Scholar
de Jager, C.: 1980, “The Brightest Stars,” (Reidel, Dordrecht), pp. 1114.Google Scholar
de Jager, C.: 1984, Astron. Astrophys. 138, p. 246.Google Scholar
de Loore, C., de Greve, J.P., Vanbeveren, D.: 1978, Astron. Astrophys. 67, p. 373.Google Scholar
de Loore, C. and de Greve, J.P.: 1981, in “The Most Massive Stars,” ed. D'Odorico, S., Baade, , and Kjar, (Garching, ESO), p. 85.Google Scholar
Elias, J.H. and Frogel, J.A.: 1985, Astrophys. J. 289, p. 141.Google Scholar
Elias, J.H., Frogel, J.A., and Humphreys, R.M.: 1985, Astrophys. J. Suppl. 57, p. 91.Google Scholar
Elias, J.H., Frogel, J.A., Humphreys, R.M., and Persson, S.E.: 1981, Astrophys. J. (Letters) 249, p. 55.Google Scholar
Falk, H.J. and Mitalas, R.: 1981, Mon. Not. Roy. Astron. Soc. 196, p. 225.Google Scholar
Falk, H.J. and Mitalas, R.: 1983, Mon. Not. Roy. Astron. Soc. 202, p. 19.Google Scholar
Flower, P.J.: 1977, Astron. Astrophys. 54, p. 31.Google Scholar
Freedman, W.: 1984, , University of Toronto.Google Scholar
Graham, J.A. and Humphreys, R.M.: 1985, in preparation.Google Scholar
Hagen, W., Humphreys, R.M., and Stencel, R.E.: 1981, Pub.A.S.P. 93, p. 567.Google Scholar
Hellings, P. and Vanbeveren, D.: 1981, Astron. Astrophys. 95, p. 14.Google Scholar
Humphreys, R.M.: 1978, Astrophys. J. Suppl. 38, p. 389.Google Scholar
Humphreys, R.M.: 1979, Astrophys. J. 231, p. 384.Google Scholar
Humphreys, R.M.: 1980a, Astrophys. J. 241, p. 587.Google Scholar
Humphreys, R.M.: 1980b, Astrophys. J. 241, p. 598.Google Scholar
Humphreys, R.M.: 1983, Astrophys. J. 269, p. 335.Google Scholar
Humphreys, R.M., Blaha, C., D'Odorico, S., Gull, T.R., and Benvenuti, P.: 1984, Astrophys. J. 278, p. 124.Google Scholar
Humphreys, R.M. and Davidson, K.: 1979, Astrophys. J. 232, p. 409.Google Scholar
Humphreys, R.M., Jones, T.J., and Sitko, M.L.: 1984, Astron. J. 89, p. 1155.Google Scholar
Humphreys, R.M. and McElroy, D.B.: 1984, Astrophys. J. 284, p. 565.Google Scholar
Humphreys, R.M., Nichols, M., and Massey, P.: 1985, Astron. J. 90, p. 101.Google Scholar
Humphreys, R.M. and Strom, S.E.: 1983, Astrophys. J. 264, p. 458.Google Scholar
Hutchings, J.B.: 1978, in “Mass Loss and Evolution of 0 Stars,” IAU Symposium #83 (Dordrecht, Reidel), p. 3.Google Scholar
Kennicutt, R.C.: 1984, Astrophys. J. 287, p. 116.Google Scholar
Kennicutt, R.C.: 1985, private communication.Google Scholar
Kunasz, P.B. and Morrison, N.D.: 1982, Astrophys. J. 263, p. 226.Google Scholar
Kunasz, P.B., Morrison, N.D., and Spressant, B.: 1983, Astrophys. J. 266, p. 739.Google Scholar
Lamb, S.A., Iben, I., and Howard, W.M.: 1976, Astrophys. J. 207, p. 209.Google Scholar
Lambert, D.L., Hinkle, K.H., and Hall, D.N.B.: 1981, Astrophys. J. 248, p. 638.Google Scholar
Lee, T.A.: 1970, Astrophys. J. 162, p. 217.Google Scholar
Madore, B.F., McAlary, C.W., McLaren, R.A., Welch, D.L., Neugebauer, G., and Matthews, K.: 1985, Astrophys. J., in press.Google Scholar
Maeder, A.: 1980, Astron. Astrophys. 92, p. 101.Google Scholar
Maeder, A.: 1981a, Astron. Astrophys. 99, p. 97.Google Scholar
Maeder, A.: 1981b, Astron. Astrophys. 102, p. 401.Google Scholar
Maeder, A.: 1983, Astron. Astrophys. 120, p. 113.Google Scholar
McGregor, P.J.: 1981, , Australian National University, Canberra.Google Scholar
McGregor, P.J. and Hyland, A.R.: 1981, Astrophys. J. 250, p. 116.Google Scholar
McGregor, P.J. and Hyland, A.R.: 1984, Astrophys. J. 277, p. 149.Google Scholar
Ridgway, S.T., Joyce, R.R., White, N.M., and Wing, R.F.: 1980, Astrophys. J. 235, p. 126.Google Scholar
Sandage, A.: 1983a, Astron. J. 88, p. 1108.Google Scholar
Sandage, A.: 1983b, Astron. J. 88, p. 1569.Google Scholar
Sandage, A.: 1984a, Astron. J. 89, p. 621.Google Scholar
Sandage, A.: 1984b, Astron. J. 89, p. 630.Google Scholar
Sandage, A. and Tammann, G.A.: 1974a, Astrophys. J. 191, p. 603.Google Scholar
Sandage, A. and Tammann, G.A.: 1974b, Astrophys. J. 194, p. 215.Google Scholar
Schild, H. and Maeder, A.: 1984, Astron. Astrophys. 136, p. 237.Google Scholar
Schmidt-Kaler, Th.: 1983, in “Landolt-Bornstein, New Series,” Group 6, Vol. 2, Part B.Google Scholar
Sreenivasan, S.R. and Wilson, W.J.F.: 1982, Astrophys. J. 254, p. 287.Google Scholar
Stothers, R. and Chin, C.W.: 1976, Astrophys. J. 204, p. 472.Google Scholar
Stothers, R. and Chin, C.W.: 1979, Astrophys. J. 233, p. 267.Google Scholar
Stothers, R. and Chin, C.W.: 1983, Astrophys. J. 264, p. 583.Google Scholar
van den Bergh, S.: 1976, in “Redshifts and the Expansion of the Universe”, IAU Symposium #37 (Paris: CNRS), p. 13.Google Scholar
Walborn, N.R.: 1972, Astron. J. 72, p. 312.Google Scholar
Walborn, N.R.: 1973, Astron. J. 78, p. 1067.Google Scholar
Zuckerman, B.: 1980, in “Ann. Rev. Astron. Astrophys.” 18.Google Scholar