Hostname: page-component-586b7cd67f-rdxmf Total loading time: 0 Render date: 2024-11-27T01:40:53.719Z Has data issue: false hasContentIssue false

The Environment of High-Mass Young Stellar Objects

Published online by Cambridge University Press:  07 August 2017

Jean-Pierre Maillard
Affiliation:
Institut d'Astrophysique de Paris 98b Boulevard Arago Paris 75014 France
George F. Mitchell
Affiliation:
Department of Astronomy Saint Mary's University Halifax, N.S., B3H 3C3 Canada

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.

Using high-resolution infrared CO spectroscopy new results have been obtained on the environment of high-mass young stellar objects (YSOs). In particular, a new class of neutral, warm and dense outflows has been discovered. The infrared outflows appear a general phenomenon of the activity of high-mass YSOs. With well-defined and often multiple velocities they seem to correspond to episodic and violent mass-loss events from the central source. In addition, a shell of warm, quiescent gas, is formed near the massive star. All these dynamical elements influence the chemistry inside the giant molecular clouds. Beside CO in solid and in gas phase, detection in the infrared has been attempted of simple molecules like CH4, C2H2, H2O and ion H3+ toward few of these sources.

Type
Quiescent Clouds and Regions of Star Formation
Copyright
Copyright © Kluwer 1992 

References

REFERENCES

Bally, J. and Lada, C.J., 1983, Ap. J. , 265, 824.Google Scholar
Black, J.H., van Dishoeck, E., Willner, S.P., and Woods, R.C., 1990, Ap. J. , 358, 459.Google Scholar
Churchwell, E., 1990, Astron. Astrophys. Rev. , 2, 79.CrossRefGoogle Scholar
Evans, N.J., 1991, this symposium.Google Scholar
Geballe, T.R., and Oka, T., 1989, Ap. J. , 342, 855.Google Scholar
Knacke, R.F., and Larson, H.P., 1991, Ap. J. , 367, 162.Google Scholar
Herbst, E., and Leung, C.M., 1986, Ap. J. , 310, 378.CrossRefGoogle Scholar
Lacy, J.H., Carr, J.S., Evans, N.J., Baas, F., Achtermann, J.M., and Arens, J.F., 1991, Ap. J. , 376, 556.Google Scholar
Maillard, J.P., and Michel, G., 1982, in Instrumentation for Astronomy with Large Optical telescopes , IAU Col. No. 67, Humphries, C. M. ed, Reidel, p. 213.Google Scholar
Mitchell, G.F., Curry, C., Maillard, J.P., and Allen, M. 1989, Ap. J. , 341, 1020.Google Scholar
Mitchell, G.F., Maillard, J.P., Allen, M., Beer, R., and Belcourt, K., 1990, Ap. J. , 363, 554.CrossRefGoogle Scholar
Mitchell, G.F., Maillard, J.P., and Hasegawa, T.I., 1991, Ap. J. , 371, 342.Google Scholar
Sandford, S.A., Allamandolla, L.J., Tielens, A.G.G., and Valero, G.J., 1988, Ap. J. , 329, 498.Google Scholar
Scalo, J.M., 1990, in Windows on Galaxies , Renzini, A., Fabbiano, G. and Gallagher, J. eds, Kluwer-Dordrecht, p. 125.Google Scholar
Simon, M., Righini-Cohen, G., Felli, M., and Fischer, J., 1981, Ap. J. , 245, 552.Google Scholar
Wilking, B.A., 1989, Pub. A. S. P. , 101, 229.Google Scholar