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HI Clouds Detected Toward Virgo with the Arecibo Legacy Fast ALFA Survey

Published online by Cambridge University Press:  01 June 2007

Brian R. Kent*
Affiliation:
Center for Radiophysics and Space Research, Space Sciences Building, Cornell University, Ithaca, NY 14853, USA email: [email protected]
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Abstract

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The Arecibo Legacy Fast ALFA survey is in the process of yielding a complete HI dataset of the Virgo Cluster and its environs (Giovanelli et al. 2007, Kent et al., in preparation). Assuming a distance to Virgo of 16.7 Mpc, the minimum detectable HI mass by ALFALFA is of order 2 × 107 M. A number of the HI detections appear to have interesting properties. Some appear associated with, but offset from, low surface brightness optical counterparts; others, at larger spatial offsets, may be tidally related to optical counterparts. Yet another class includes detections which are not identifiable with any optical counterparts. We present the ALFALFA results on these objects in the Virgo region, as well as followup aperture synthesis observations obtained with the VLA.

Type
Contributed Papers
Copyright
Copyright © International Astronomical Union 2008

References

Barnes, D. G, Staveley–Smith, L., de Block, W. J. G., Oosterloo, T., Stewart, I. M., et al. 2001, MNRAS 322, 486CrossRefGoogle Scholar
Binggeli, B., Sandage, A., & Tammann, G. A. 1985, AJ 90, 1681CrossRefGoogle Scholar
Binggeli, B., Tammann, G. A., & Sandage, A. 1987, AJ 94, 251CrossRefGoogle Scholar
Binggeli, B., Popescu, C. C., & Tammann, G. A. 1993, A&A 98, 275Google Scholar
Cayatte, V., van Gorkom, J. H., Balkowski, C., & Kotanyi, C. 1990, AJ 100, 604CrossRefGoogle Scholar
Chung, A., van Gorkom, J. H., Kenney, J. D. P., & Vollmer, B. 2007, ApJ (Letters) 659, L115CrossRefGoogle Scholar
Duc, P.-A., & Bournaud, F. 2007, ApJ submittedGoogle Scholar
Duprie, K., & Schneider, S. E. 1996, AJ 112, 937CrossRefGoogle Scholar
Giovanelli, R., et al. 2005a, AJ 130, 2598CrossRefGoogle Scholar
Giovanelli, R., et al. 2005b, AJ 130, 2613CrossRefGoogle Scholar
Giovanelli, R., et al. 2007, AJ 133, 2569CrossRefGoogle Scholar
Haynes, M. P., Giovanelli, R., & Kent, B. R. 2007, ApJ (Letters) 665, L19CrossRefGoogle Scholar
Haynes, M. P., & Giovanelli, R. 1986, ApJ 306, 466CrossRefGoogle Scholar
Kent, B. R., Giovanelli, R., Haynes, M. P., et al. 2007, ApJ (Letters) 665, L15CrossRefGoogle Scholar
Masters, K. L. 2005, Ph.D. Thesis, Cornell UniversityGoogle Scholar
Minchin, R., Davies, J., Disney, M., Boyce, P., Garcia, D. et al. 2005a, ApJ (Letters) 622, L21CrossRefGoogle Scholar
Minchin, R. F., Davies, J. I., Disney, M. J., Marble, A. R., Impey, C. D., et al. , 2005b, astro-ph/0508153Google Scholar
Moore, B., Katz, N., Lake, G., Dressler, A., & Oemler, A. 1996, Nature 379, 613CrossRefGoogle Scholar
Oosterloo, T., & van Gorkom, J. 2005, A&A 437, L19Google Scholar
Saintonge, A. 2007a, AJ 133, 2087CrossRefGoogle Scholar
Saintonge, A., et al. 2007b, AJ submittedGoogle Scholar
Snowden, S. L., et al. , 1995, ApJ 454, 643CrossRefGoogle Scholar
Solanes, J. M., Sanchis, T., Salvador-Solé, E., Giovanelli, R., & Haynes, M. P. 2002, AJ 124, 2440CrossRefGoogle Scholar
Tonry, J. L., Blakeslee, J. P., Ajhar, E. A., & Dressler, A. 2000, ApJ 530, 625CrossRefGoogle Scholar
Wong, O. I., Ryan–Weber, E. V., Garcia–Appadoo, D. A., et al. 2006, MNRAS, 371, 1855CrossRefGoogle Scholar