Hostname: page-component-78c5997874-ndw9j Total loading time: 0 Render date: 2024-11-17T16:14:21.691Z Has data issue: false hasContentIssue false

INFRARED STUDIES OF THE STELLAR CONTENT IN EXTRAGALACTIC SYSTEMS

Published online by Cambridge University Press:  14 August 2015

Marc Aaronson*
Affiliation:
Steward Observatory University of Arizona

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.

Normal galaxies emit most of their radiation longward of one micron, and many problems related to our understanding of galaxy formation and evolution can be fruitfully addressed with measurements at near-infrared wavelengths. Such problems include the make-up of the red stellar population, the star formation rate, the initial mass function, metallicity effects, and mass-to-light ratio. How these various quantities depend on morphological type, on total mass (or absolute magnitude), on radial position, and on environment is also of great interest. In this review recent infrared observations of extragalactic stars, star clusters, and galaxies having important bearing on these questions are discussed. Particular emphasis is placed on new evidence for the presence of a finite intermediate age population in early-type systems. This evidence comes from observations of intermediate age stars in many Magellanic Cloud globular clusters, observations of such stars in at least one nearby dwarf spheroidal (Fornax), the difficulties of fitting theoretical isochrone models to the red V-K colors of E and SO galaxies, and the differences in the infrared color-magnitude relations for the Virgo and Coma clusters.

“It is not very bright to measure a blue magnitude for a red object.”

– Vera Rubin

Type
Research Article
Copyright
Copyright © Reidel 1981 

References

Aaronson, M.: 1977, , Harvard University.Google Scholar
Aaronson, M.: 1978a, Ap. J. (Letters), 221, L103.Google Scholar
Aaronson, M.: 1978b, P.A.S.P., 90, 28.Google Scholar
Aaronson, M., Cohen, J. G., Mould, J. and Malkan, M.: 1978a, Ap. J., 223, 824 (ACMM).Google Scholar
Aaronson, M., Frogel, J. A. and Persson, S. E.: 1978b, Ap. J., 220, 442.Google Scholar
Aaronson, M. and Huchra, J.: 1980 (in preparation).Google Scholar
Aaronson, M. and Mould, J.: 1980, Ap. J. (in press).Google Scholar
Aaronson, M., Persson, S. E. and Frogel, J. A.: 1980 (in preparation).Google Scholar
Baldwin, J. R., Frogel, J. A. and Persson, S. E.: 1973, Ap. J., 184, 427.Google Scholar
Bernard, A.: 1975, Astr. Ap., 40, 199.Google Scholar
Boroson, T.: 1980, , University of Arizona.Google Scholar
Blanco, B. M., Blanco, V. M. and McCarthy, M. F.: 1978, Nature, 271, 638.Google Scholar
Butcher, H. R.: 1977, Ap. J., 216, 372.Google Scholar
Catchpole, R. M., and Glass, I. S.: 1974, M.N.R.A.S., 169, 69P.Google Scholar
Ciardullo, R.B., and Demarque, P.: 1977, Trans. Astr. Obs., Yale U., 35.Google Scholar
Cohen, J. G.: 1979, Ap. J., 228, 405.Google Scholar
Cohen, J. G.: 1980, private communication.Google Scholar
Cohen, J. G., Frogel, J. A., and Persson, S. E.: 1978, Ap. J., 222, 165.Google Scholar
de Vaucouleurs, G., de Vaucouleurs, A., and Corwin, H. G.: 1976, Second Reference Catalogue of Bright Galaxies (Austin: University of Texas Press).Google Scholar
Dearborn, D. S. P., Eggleton, P. P., and Schramm, D. N.: 1976, Ap. J., 203, 455.Google Scholar
Demers, S., and Kunkel, W. E.: 1979, P.A.S.P., 91, 761.Google Scholar
Faber, S. M.: 1973, Ap. J., 179, 731.Google Scholar
Faber, S. M., and French, H. B.: 1980, Ap. J., 235, 405.Google Scholar
Frogel, J. A., Persson, S. E., Aaronson, M. and Matthews, K.: 1978, Ap. J., 220, 75 (FPAM).Google Scholar
Frogel, J. A., Persson, S. E. and Cohen, J. G.: 1979, Ap. J., 227, 499.Google Scholar
Frogel, J. A., Persson, S. E. and Cohen, J. G.: 1980a, Ap. J., in press.Google Scholar
Frogel, J. A., Persson, S. E. and Cohen, J. G.: 1980b, Ap. J., in press.Google Scholar
Gascoigne, S. C. B., Norris, J., Bessell, M. S., Hyland, A. R. and Visvanathan, N.: 1976, Ap. J. (Letters), 209, L25.Google Scholar
Glass, I. S.: 1979, M.N.R.A.S., 186, 317.Google Scholar
Gustafsson, B., Bell, R. A. and Hejlesen, P. M.: 1977, Ap. J. (Letters), 216, L7.Google Scholar
Huchra, J. P.: 1977, Ap. J., 217, 928.Google Scholar
Humphreys, R. M.: 1980, Ap. J. (in press).Google Scholar
Humphreys, R. M. and Warner, J. W.: 1978, Ap. J. (Letters), 221, L73.Google Scholar
Johnson, H. L.: 1966a, Ann. Rev. Astr. Ap., 4, 193.CrossRefGoogle Scholar
Johnson, H. L.: 1966b, Ap. J., 143, 187.Google Scholar
Lebofsky, M. J.: 1980, IAU Sym. No. 96, Infrared Astronomy (this volume).Google Scholar
Lee, T. A.: 1970, Ap. J., 162, 217.Google Scholar
Martin, W. L., Warren, P.R., and Feast, M. W.: 1979, M.N.R.A.S. 188, 139.Google Scholar
McClure, R. D., Cowley, A. P. and Crampton, D.: 1980, Ap. J. (in press).Google Scholar
Mould, J. and Aaronson, M.: 1979, Ap. J., 232, 421.Google Scholar
Mould, J. and Aaronson, M.: 1980, Ap. J. (in press).Google Scholar
O'Connell, R. W.: 1976, Ap. J., 206, 370.Google Scholar
O'Connell, R. W.: 1980, Ap. J., 236, 430.Google Scholar
Persson, S. E., Aaronson, M. and Frogel, J. A.: 1977, A. J., 82, 729.CrossRefGoogle Scholar
Persson, S. E., Frogel, J. A. and Aaronson, M.: 1979, Ap. J. Suppl., 39, 61 (PFA).Google Scholar
Persson, S. E., Aaronson, M., Cohen, J. G., Frogel, J. A. and Matthews, K.: 1980a, (in preparation).Google Scholar
Persson, S. E., Cohen, J. G., Sellgren, K., Mould, J. and Frogel, J. A.: 1980b, Ap. J., (in press).Google Scholar
Persson, S. E., Frogel, J. A., Cohen, J. G., Aaronson, M. and Matthews, K.: 1980c, Ap. J., 235, 452.Google Scholar
Pilachowski, C. A.: 1978, Ap. J., 224, 412.Google Scholar
Pilachowski, C. A., Canterna, R. and Wallerstein, G.: 1980, Ap. J. (Letters), 235, L21.Google Scholar
Ridgway, S.T., Joyce, R.R., White, N.M. and Wing, R.F.: 1980, Ap. J., 235, 126.Google Scholar
Rieke, G. H. and Lebofsky, M. J.: 1978, Ap. J. (Letters), 220, L37.Google Scholar
Rieke, G. H. and Lebofsky, M. J.: 1979, Ann. Rev. Astr. Ap., 17, 477.Google Scholar
Rieke, G. H., Lebofsky, M. J., Thompson, R. I., Low, F. J. and Tokunaga, A. T.: 1980, Ap. J. (in press).Google Scholar
Rood, R. T.: 1972, Ap. J., 177, 681.Google Scholar
Sandage, A. and Visvanathan, N.: 1978, Ap. J., 225, 742.Google Scholar
Sargent, W. L. W. and Searle, L.: 1970, Ap. J. (Letters), 162, L155.Google Scholar
Spinrad, H., and Bruzual, G.: 1980, Paper presented at IAU Symp. No. 96.Google Scholar
Strom, S. E. and Strom, K. M.: 1978, IAU Symp. No. 84, The Large-Scale Characteristics of the Galaxy (Dordrecht: D. Reidel Publ. Co.).Google Scholar
Strom, S. E., Strom, K. M., Goad, J. W., Vrba, F. J., and Rice, W.: 1976, Ap. J., 204, 684.Google Scholar
Strom, K.M., Strom, S.E., Wells, D.C. and Romanishin, W.: 1978, Ap. J. 220, 62.Google Scholar
Struck-Marcell, C., and Tinsley, B. M.: 1978, Ap. J., 221, 562.CrossRefGoogle Scholar
Sweigart, A. V., and Gross, P. G.: 1978, Ap. J. Suppl., 36, 405.Google Scholar
Tammann, G. A., Sandage, A. and Yahil, A.: 1979, Determination of Cosmological Parameters, Les Houches Summer School Lecture Notes, U. of Basel.Google Scholar
Terlevich, R., Davies, R. L., Faber, S. M., and Burstein, D.: 1980, (preprint).Google Scholar
Tinsley, B. M.: 1972, Ap. J., 178, 319.Google Scholar
Tinsley, B. M.: 1978, Ap. J., 222, 14.Google Scholar
Tinsley, B. M., and Gunn, J. E.: 1976, Ap. J., 203, 52.Google Scholar
van den Bergh, S.: 1969, Ap. J. Suppl., 19, 145.Google Scholar
Visvanathan, N. and Griersmith, D.: 1977, Astr. Ap., 59, 317.Google Scholar
Visvanathan, N. and Sandage, A.: 1977, Ap. J., 216, 214.Google Scholar
Williams, T. B.: 1976, Ap. J., 209, 716.Google Scholar
Wu, C.-C., Faber, S. M., Gallagher, J. S., Peck, M. and Tinsley, B. M.: 1980, Ap. J., 237, 290.Google Scholar
Wynn-Williams, C. G., Becklin, E. E., Matthews, K. and Neugebauer, G.: 1979, M.N.R.A.S., 189, 163.Google Scholar