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The starburst region 30 Doradus

Published online by Cambridge University Press:  19 July 2016

Nolan R. Walborn*
Affiliation:
Space Telescope Science Institute2, 3700 San Martin Drive, Baltimore, Maryland 21218, USA

Abstract

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The 30 Doradus region of the LMC is a Rosetta Stone for the interpretation of similar, more distant regions, since it is accessible to spatially resolved investigation of its components with modern instrumentation. Following an introductory review of the various scales and populations relevant to the region, several current programs which promise improved understanding will be reviewed. They include extensive new optical spectroscopy and photometry of the central cluster, which will provide substantial new information about the stellar content and initial mass function (IMF); infrared surveys which will clarify questions about continuing star formation and the lower main sequence; and high-resolution nebular spectroscopy and X-ray observations which will reveal the high-energy phenomena in the surrounding interstellar medium.

Type
Star Formation and Clustering
Copyright
Copyright © Kluwer 1991 

References

Blaha, C. and Humphreys, R. M. 1989, A. J. , 98, 1598.CrossRefGoogle Scholar
Breysacher, J. 1981, Astr. Ap. Suppl. , 43, 203.Google Scholar
Chu, Y.-H. and Kennicutt, R. C. Jr. 1988, A. J. , 96, 1874.CrossRefGoogle Scholar
Chu, Y.-H. and MacLow, M.-M. 1990, Ap. J. , in press.Google Scholar
Clayton, C. A. 1987, Astr. Ap. , 173, 137.Google Scholar
Cohen, R. S., Dame, T. M., Garay, G., Montani, J., Rubio, M., and Thaddeus, P. 1988, Ap. J. (Letters) , 331, L95.CrossRefGoogle Scholar
Cox, P. and Deharveng, L. 1983, Astr. Ap. , 117, 265.Google Scholar
Elliott, K. H., Goudis, C., Meaburn, J., and Tebbutt, N. J. 1977, Astr. Ap. , 55, 187.Google Scholar
Feast, M. W., Thackeray, A. D., and Wesselink, A. J. 1960, M.N.R.A.S. , 121, 337.CrossRefGoogle Scholar
Harnden, F. R. Jr. and Seward, F. D. 1988, in Fourth George Mason Astrophysics Workshop, Supernova 1987A in the Large Magellanic Cloud , ed. Kafatos, M. and Michalitsianos, A. G. (Cambridge), p. 408.Google Scholar
Henize, K. G. 1956, Ap. J. Suppl. , 2, 315.Google Scholar
Hodge, P. W. and Wright, F. W. 1967, The Large Magellanic Cloud (Smithsonian Publ. 4699).Google Scholar
Hyland, A. R., Straw, S., Jones, T. J., and Gatley, I. 1990, in preparation.Google Scholar
Jones, T. J., Hyland, A. R., Straw, S., Harvey, P. M., Wilking, B. A., Joy, M., Gatley, I., and Thomas, J. A. 1986, M.N.R.A.S. , 219, 603.CrossRefGoogle Scholar
Kennicutt, R. C. Jr. and Chu, Y.-H. 1988, A. J. , 95, 720.Google Scholar
Kennicutt, R. C. Jr. and Hodge, P. W. 1986, Ap. J. , 306, 130.CrossRefGoogle Scholar
Klein, U., Wielebinski, R., Haynes, R. F., and Malin, D. F. 1989, Astr. Ap. , 211, 280.Google Scholar
Maeder, A. 1983, Astr. Ap. , 120, 113.Google Scholar
Massey, P., Parker, J. W., and Garmany, C. D., 1989, A. J. , 98, 1305.Google Scholar
Meaburn, J. 1984, M.N.R.A.S. , 211, 521.Google Scholar
Meaburn, J. 1988, M.N.R.A.S. , 235, 375.CrossRefGoogle Scholar
Melnick, J. 1985, Astr. Ap. , 153, 235.Google Scholar
Mills, B. Y., Turtle, A. J., and Watkinson, A. 1978, M.N.R.A.S. , 185, 263.Google Scholar
Moffat, A. F. J., Niemela, V. S., Phillips, M. M., Chu, Y.-H., and Seggewiss, W. 1987, Ap. J. , 312, 612.CrossRefGoogle Scholar
Moffat, A. F. J., Seggewiss, W., and Shara, M. M. 1985, Ap. J. , 295, 109.Google Scholar
Neri, R. and Grewing, M. 1988, Astr. Ap. , 196, 338.Google Scholar
Schwering, P. B. W. 1989, Astr. Ap. Suppl. , 79, 105.Google Scholar
Seward, F. D. and Chlebowski, T. 1982, Ap. J. , 256, 530.Google Scholar
Smith, A. M., Cornett, R. H., and Hill, R. S. 1987, Ap. J. , 320, 609; err. ibid. 355, 746 (1990).CrossRefGoogle Scholar
Testor, G. and Schild, H. 1990, Astr. Ap. , in press.Google Scholar
Walborn, N. R. 1973, Ap. J. (Letters) , 182, L21.Google Scholar
Walborn, N. R. 1980, Ap. J. (Letters) , 235, L101.Google Scholar
Walborn, N. R. 1982, Ap. J. Suppl. , 48, 145.Google Scholar
Walborn, N. R. 1984, in IAU Symp. 108, Structure and Evolution of the Magellanic Clouds , ed. van den Bergh, S. and de Boer, K. S. (Reidel), p. 243.Google Scholar
Walborn, N. R. 1986, in IAU Symp. 116, Luminous Stars and Associations in Galaxies , ed. de Loore, C. W. H., Willis, A. J., and Laskarides, P. (Reidel), p. 185.Google Scholar
Walborn, N. R. 1990, in ASP Conf. Ser. Vol. 7, Properties of Hot Luminous Stars , ed. Garmany, C. D. (BookCrafters), p. 23.Google Scholar
Walborn, N. R. and Blades, J. C. 1987, Ap. J. (Letters) , 323, L65.Google Scholar
Walborn, N. R. and Hesser, J. E. 1982, Ap. J. , 252, 156.CrossRefGoogle Scholar
Walker, A. R. and O'Donoghue, D. E. 1984, Astr. Express , 1, 45.Google Scholar
Wang, Q. and Helfand, D. J. 1990, preprint.Google Scholar
Weigelt, G. and Baier, G. 1985, Astr. Ap. , 150, L18.Google Scholar
Welch, Wm. J., Dreher, J. W., Jackson, J. M., Terebey, S., and Vogel, S. N. 1987, Science , 238, 1550.CrossRefGoogle Scholar
Whiteoak, J. B. and Gardner, F. F. 1986, M.N.R.A.S. , 222, 513.Google Scholar
Whiteoak, J. B., Wellington, K. J., Jauncey, D. L., Gardner, F. F., Forster, J. R., Caswell, J. L., and Batchelor, R. A. 1983, M.N.R.A.S. , 205, 275.Google Scholar