Hostname: page-component-7c8c6479df-7qhmt Total loading time: 0 Render date: 2024-03-29T14:48:03.118Z Has data issue: false hasContentIssue false

Investigating high-mass star formation through maser surveys

Published online by Cambridge University Press:  01 March 2007

S. P. Ellingsen
Affiliation:
School of Mathematics and Physics, University of Tasmania, Private Bag 21, Hobart 7001, TAS, Australia email: Simon.Ellingsen@utas.edu.au
M. A. Voronkov
Affiliation:
Australia Telescope National Facility CSIRO, PO Box 76, Epping 1710, NSW, Australia
D. M. Cragg
Affiliation:
School of Chemistry, Building 23, Monash University, Victoria 3800, Australia
A. M. Sobolev
Affiliation:
Ural State University, Lenin ave. 51, 620083 Ekaterinburg, Russia
S. L. Breen
Affiliation:
School of Mathematics and Physics, University of Tasmania, Private Bag 21, Hobart 7001, TAS, Australia email: Simon.Ellingsen@utas.edu.au
P. D. Godfrey
Affiliation:
School of Chemistry, Building 23, Monash University, Victoria 3800, Australia
Rights & Permissions [Opens in a new window]

Abstract

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.

Interstellar masers are unique probes of the environments in which they arise. In studies of high-mass star formation their primary function has been as signposts of these regions and they have been used as probes of the kinematics and physical conditions in only a few sources. With a few notable exceptions, we know relatively little about the evolutionary phase the different maser species trace, nor their location with respect to other star formation tracers. While detailed studies of a small number of maser regions can reveal much about them, other information can only be obtained through large, systematic searches. In particular, such surveys are vital in efforts to determine an evolutionary sequence for the common maser species, and there is growing evidence that methanol masers may trace an earlier phase than the other common maser species of OH and water.

Type
Contributed Papers
Copyright
Copyright © International Astronomical Union 2008

References

Argon, A. L., Reid, M. J., & Menten, K. M. 2003 ApJ 593, 925CrossRefGoogle Scholar
Breen, S. L., Ellingsen, S. P., Johnston-Hollitt, M., Wotherspoon, S., Burton, M. G., Cunningham, M., Lo, N., Senkbeil, C. E., & Wong, T. 2007 MNRAS in pressGoogle Scholar
Caswell, J. L. 1997 MNRAS 289, 203CrossRefGoogle Scholar
Caswell, J. L., Haynes, R. F., & Goss, W. M. 1980 Aust. J. Phys. 33, 639CrossRefGoogle Scholar
Cragg, D. M., Sobolev, A. M., Ellingsen, S. P., Caswell, J. L., Godfrey, P. D., Salii, S. V., & Dodson, R. G. 2001 MNRAS 323, 939CrossRefGoogle Scholar
Cragg, D. M., Sobolev, A. M., & Godfrey, P. D. 2002 MNRAS 331, 521CrossRefGoogle Scholar
De Buizer, J. M., Radomski, J. T., Telesco, C. M., & Piña, R. K. 2005 ApJS 156, 179CrossRefGoogle Scholar
Ellingsen, S. P. 2005 MNRAS 359, 1498CrossRefGoogle Scholar
Ellingsen, S. P. 2006, ApJ 638, 241CrossRefGoogle Scholar
Ellingsen, S. P., von Bibra, M. L., McCulloch, P. M., Norris, R. P., Deshpande, A. A., & Phillips, C. J. 1996, MNRAS 280, 378CrossRefGoogle Scholar
Felli, M., Palagi, F., & Tofani, G. 1992, A&A 255, 293Google Scholar
Forster, J. R., & Caswell, J. L. 1989, A&A 213, 339Google Scholar
Menten, K. M., Reid, M. J., Pratap, P., Moran, J. M., & Wilson, T. L. 1992, ApJ 401, L39CrossRefGoogle Scholar
Minier, V., Burton, M.G., Hill, T., Pestalozzi, M.R., Purcell, C.R., Garay, G., Walsh, A.J., & Longmore, S. 2005 A&A 429, 945Google Scholar
Minier, V., Ellingsen, S. P., Norris, R. P., & Booth, R. S. 2003, A&A 403, 1095Google Scholar
Pestalozzi, M. R., Humphreys, E. M. L., & Booth, R. S. 2002 A&A 384, L15Google Scholar
Phillips, C. J., Norris, R. P., Ellingsen, S. P., & McCulloch, P. M. 1998, MNRAS 300, 1131CrossRefGoogle Scholar
Plambeck, R. L., Menten, K. M. 1990 ApJ 364, 555CrossRefGoogle Scholar
Sridharan, T. K., Beuther, H., Schilke, P., Menten, K. M., & Wyrowski, F. 2002, ApJ 566, 931CrossRefGoogle Scholar
Szymczak, M., Pillai, T., & Menten, K. M. 2005, A&A 434, 613Google Scholar
Torrelles, J. M., Patel, N., Gómez, J.F., Anglada, G., & Uscanga, L. 2005, Ap&SS 295, 53Google Scholar
Voronkov, M. A., Brooks, K. J., Sobolev, A. M., Ellingsen, S. P., Ostrovskii, A. B., & Caswell, J. L. 2006 MNRAS 373, 411CrossRefGoogle Scholar
Walsh, A. J., Burton, M. G., Hyland, A. R., & Robinson, G. 1998 MNRAS 301, 640CrossRefGoogle Scholar
Walsh, A. J., Macdonald, G. H., Alvey, N. D. S., Burton, M. G., & Lee, J.-K. 2003 A&A 410, 597Google Scholar