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Where are the Stars in Dark Galaxies?

Published online by Cambridge University Press:  01 June 2007

Jessica L. Rosenberg
Affiliation:
Department of Physics, George Mason University, Farifax, VA 22030, USA email: jrosenb4@gmu.edu
John J. Salzer
Affiliation:
Department of Astronomy, Indiana University, Bloomington, IN 47405
John Cannon
Affiliation:
Department of Physics and Astronomy, Macalester College, Saint Paul, MN 55105
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Abstract

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Blind HI surveys provide a census of galaxies in the local universe that is unbiased by their optical properties. Even the Arecibo Dual-Beam Survey with a sample of only 265 galaxies discovered many low surface brightness galaxies and one galaxy with no obvious stellar component. Overall the galaxies in this survey display a diverse range of gas-to-stellar properties. The environment in which a galaxy resides is shown to be one of the factors responsible for this diversity, but it is not the only one. Clearly there are other factors affecting the complex processes responsible for the conversion of gas into stars rapidly in some galaxies, slowly in others, and rapidly in the center while slowly in the outskirts in still other galaxies. Nevertheless, even the inefficient star formation observed in a large fraction of the gas-rich galaxies appears to be a significant contributor to the overall star-formation rate density locally and therefore an important driver of galaxy evolution that must be understood. We focus on a discussion of the stellar and star formation properties in a 21 cm selected sample of galaxies because it is these measurements that contain the most information about the nature of star formation in galaxies.

Type
Contributed Papers
Copyright
Copyright © International Astronomical Union 2008

References

Fisher, J. R. & Tully, R. B.: 1981, ApJS 47, 139CrossRefGoogle Scholar
Galaz, G., Dalcanton, J. J., Infante, L., & Treister, E.: 2002, AJ 124, 1360CrossRefGoogle Scholar
Huchtmeier, W. K. & Richter, O.-G.: 1985, ApJ 149, 118Google Scholar
McGaugh, S. S., Schombert, J. M., Bothun, G. D., & de Blok, W. J. G.: 2000, ApJL 533, L99CrossRefGoogle Scholar
Meyer, M. J., Zwaan, M. A., Webster, R. L., Brown, M. J. I., & Staveley-Smith, L.: 2007, ApJ 654, 702CrossRefGoogle Scholar
Miyauchi-Isobe, N. & Maehara, H.: 2000, Pub. NAOJ 6, 1Google Scholar
O'Neil, K. & Bothun, G.: 2000, ApJ 529, 811CrossRefGoogle Scholar
Rosenberg, J. L. & Schneider, S. E.: 2000, ApJS 130, 177CrossRefGoogle Scholar
Rosenberg, J. L. & Schneider, S. E.: 2002, ApJ 567, 247CrossRefGoogle Scholar
Rosenberg, J. L., Schneider, S. E., & Posson-Brown, J.: 2005, AJ 129, 1311CrossRefGoogle Scholar
Salzer, J. J., Gronwall, C., Lipovetsky, V. A., Kniazev, A., Moody, J. W., Boroson, T. A., Thuan, T. X., Izotov, Y. I., Herrero, J. L. & Frattare, L. M.: 2000, AJ 120, 80CrossRefGoogle Scholar
Schlegel, D. J., Finkbeiner, D. P., & Davis, M.: 1998, ApJ 500, 525CrossRefGoogle Scholar
Scodeggio, M. & Gavazzi, G.: 1993, ApJ 409, 110CrossRefGoogle Scholar
Skrutskie, M. F., Cutri, R. M., Stiening, R., Weinberg, M. D., Schneider, S., Carpenter, J. M., Beichman, C., Capps, R., Chester, T., Elias, J., Huchra, J., Liebert, J., Lonsdale, C., Monet, D. G., Price, S., Seitzer, P., Jarrett, T., Kirkpatrick, J. D., Gizis, J. E., Howard, E., Evans, T., Fowler, J., Fullmer, L., Hurt, R., Light, R., Kopan, E. L., Marsh, K. A., McCallon, H. L., Tam, R., Van Dyk, S., & Wheelock, S.: 2006, AJ 131, 1163CrossRefGoogle Scholar
Solanes, J. M., Manrique, A., García-Gómez, C., González-Casado, G., Giovanelli, R., & Haynes, M. P.: 2001, ApJ 548, 97CrossRefGoogle Scholar
Sprayberry, D., Impey, C. D., Bothun, G. D., & Irwin, M. J.: 1995, AJ 109, 558CrossRefGoogle Scholar