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Star Formation in Virgo Intracluster Space

Published online by Cambridge University Press:  26 May 2016

Ortwin Gerhard
Ortwin Gerhard*
Affiliation:
Astronomisches Institut, Universität Basel Venusstrasse 7, CH-4102 Binningen, Switzerland

Abstract

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A number of candidate isolated compact HII regions have been discovered on combined Hα, [OIII], and broadband images in the Virgo cluster. One point-like source was spectroscopically confirmed as an HII region; this object is powered by a small starburst with an estimated mass of ~ 400 M and age of ~ 3 Myr. The object is located in the diffuse outer halo of NGC 4388, or could possibly be in intracluster space. Several resolved HII candidates are seen in the extended (~ 35 kpc) emission line region north-east of NGC 4388, perhaps triggered by the jet from the galaxy's nucleus. Star formation can thus take place far outside the main star forming regions of galaxies. The origin of the gas, the star formation, and some implications are discussed.

Type
Part 4. Recycling
Information
Symposium - International Astronomical Union , Volume 217: Recycling Intergalactic and Interslettar Matter , 2004 , pp. 480 - 485
Copyright
Copyright © Astronomical Society of the Pacific 2004 

References

Arnaboldi, M., et al. 1996, ApJ, 472, 145.CrossRefGoogle Scholar
Arnaboldi, M., et al. 2002, AJ, 125, 514.CrossRefGoogle Scholar
Bekki, K., Couch, W.J. 2003, ApJ, 596, L13.CrossRefGoogle Scholar
Bernstein, G.M., et al. 1995, AJ, 110, 1507.Google Scholar
Bicknell, G.V., et al. 2000, ApJ, 540, 678.CrossRefGoogle Scholar
Bohlin, R.C., Savage, B.D., & Drake, J.F. 1978, ApJ, 224, 132.CrossRefGoogle Scholar
Cardelli, J.A., Clayton, G.C., & Mathis, J.S. 1989, ApJ, 345, 245.Google Scholar
Conlon, E.S., Dufton, P.L., Keenan, F.P., McCausland, R.J.H., & Holmgren, D. 1992, ApJ, 400, 273.Google Scholar
Díaz, A.I., Pérez-Montero, E. 2000, MNRAS, 312, 130.CrossRefGoogle Scholar
Dopita, M.A., Kewley, L.J., Heisler, C.A., & Sutherland, R.S. 2000, ApJ, 542, 224.Google Scholar
Feldmeier, J.J. 2002, IAU Symp. 209, Intracluster Planetary Nebulae, ASP, in press, astro-ph/0201452.Google Scholar
Ferguson, H., Tanvir, N.R., & von Hippel, T. 1998, Nature, 391, 461.Google Scholar
Gavazzi, C., et al. 2001, ApJ, 563, L23.CrossRefGoogle Scholar
Gerhard, O., Arnaboldi, M., Freeman, K.C., Okamura, S. 2002, ApJ, 580, L121.Google Scholar
Leitherer, C., et al. 1999, ApJS, 123, 3.Google Scholar
Moore, B., Lake, G., Quinn, T., & Stadel, J. 1999, MNRAS, 304, 465.Google Scholar
Okamura, S., et al. 2002, PASJ, 54, 883.Google Scholar
Osterbrock, D.E. 1989, Astrophysics of Gaseous Nebulae and Active Galactic Nuclei, University Science Books, Mill Valley.Google Scholar
Quilis, V., Moore, B., & Bower, R. 2000, Science, 288, 1617.Google Scholar
Sakai, S., Kennicutt, R.C., van der Hulst, J.M., Moss, C. 2002, ApJ, 578, 842.Google Scholar
Tonry, J.L. et al. 2001, ApJ, 546, 681.Google Scholar
Tripp, T.M., et al. 2002, ApJ, 575, 697.Google Scholar
Vollmer, B., Huchtmeier, W. 203, A&A, 406, 427.Google Scholar
Yasuda, N., Fukugita, M., Okamura, S. 1997, ApJS, 108, 417.CrossRefGoogle Scholar
Yoshida, M., et al. 2002, ApJ, 567, 118.Google Scholar