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Synthesis of organic compounds in the circumstellar environment

Published online by Cambridge University Press:  01 February 2008

Sun Kwok*
Affiliation:
Department of Physics, University of Hong Kong, Hong Kong, China email: [email protected]
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Abstract

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Through the techniques of millimeter-wave and infrared spectroscopy, over 60 species of gas-phase molecules and a variety of inorganic and organic solids have been detected in the short phase of stellar evolution between the asymptotic giant branch and planetary nebulae. The chemical pathways that lead to the synthesis of complex organic compounds in such low-density environments are therefore important topics of astrochemistry. In this review, we summarize the observational evidence for the existence of complex aliphatic and aromatic compounds in these circumstellar environments, and discuss the nature of their possible carriers. Also discussed are a number of unidentified emission features which may also have an organic origin. The possible relations between these circumstellar organic matter with Solar System organic matter are explored.

Type
Contributed Papers
Copyright
Copyright © International Astronomical Union 2008

References

Cernicharo, J., Heras, A. M., Tielens, A. G. G. M., Pardo, J. R., Herpin, F., Guélin, M., & Waters, L. B. F. M. 2001, ApJ (Letters), 546, L123CrossRefGoogle Scholar
Chang, H.-C., Chen, K., & Kwok, S. 2006, ApJ (Letters), 639, L63CrossRefGoogle Scholar
Duley, W. W. 1985, MNRAS, 230, 1PCrossRefGoogle Scholar
Duley, W. W. & Williams, D. A. 1981, MNRAS, 196, 269CrossRefGoogle Scholar
Flynn, G. J., Keller, L. P., Feser, M., Wirick, S., & Jacobsen, C. 2003, Geochim. Cosmochim. Acta, 67, 4791CrossRefGoogle Scholar
Geballe, T. R., Tielens, A. G. G. M., Kwok, S., & Hrivnak, B. J. 1992 ApJ (Letters), 387, L89CrossRefGoogle Scholar
Guillois, O., Nenner, I., Papoular, R., & Reynaud, C. 1996, ApJ, 464, 810CrossRefGoogle Scholar
Henning, Th. (ed.), 2003, Astromineralogy (Springer)CrossRefGoogle Scholar
Herlin, N., Bohn, I., Reynaud, C., Cauchetier, M., Galvez, A., & Rouzaud, J.-N. 1998, A&A, 330, 1127Google Scholar
Hony, S. et al. 2001, A&A, 370, 1030Google Scholar
Hrivnak, B. J., Volk, K., & Kwok, S. 2000, ApJ, 535, 275CrossRefGoogle Scholar
Hrivnak, B. J., Geballe, T. R., & Kwok, S. 2007, ApJ, 662, 1059CrossRefGoogle Scholar
Hu, A. & Duley, W. W. 2007, ApJ (Letters), 660, L137CrossRefGoogle Scholar
Jäger, C. et al. 1998, A&A, 339, 904Google Scholar
Kerridge, J. F. 1999, Space Sc. Rev., 90, 275CrossRefGoogle Scholar
Kwok, S. 1993, Ann. Rev. Astr. Ap., 31, 63CrossRefGoogle Scholar
Kwok, S. 2004, Nature, 430, 985CrossRefGoogle Scholar
Kwok, S., Volk, K., & Bernath, P. 2001, ApJ (Letters), 554, L87CrossRefGoogle Scholar
Kwok, S., Volk, K., & Bidelman, W. P. 1997, ApJS, 112, 557CrossRefGoogle Scholar
Kwok, S., Volk, K., & Hrivnak, B. J. 1989, ApJ (Letters), 345, L51CrossRefGoogle Scholar
Kwok, S., Volk, K., & Hrivnak, B. J. 1999, A&A (Letters), 350, L35Google Scholar
Li, A. 2004, in: Witt, A. N., Clayton, G. C., & Draine, B. T. (eds.), Astrophysics of Dust, Vol. 309, p. 417Google Scholar
Messenger, S. 2000, Nature, 404, 968CrossRefGoogle Scholar
Papoular, R., Conard, J., Giuliano, M., Kister, J., & Mille, G. 1989, A&A, 217, 204Google Scholar
Papoular, R., Conard, J., Guillois, O., Nenner, I., Reynaud, C., & Rouzaud, J.-N. 1996, A&A, 315, 222Google Scholar
Pendleton, Y. J. & Allamandola, L. J. 2002, ApJS, 138, 75CrossRefGoogle Scholar
Posch, Th., Mutschke, H., & Andersen, A. 2004, ApJ, 616, 1167CrossRefGoogle Scholar
Posch, T., Kerschbaum, F., Mutschke, H., Fabian, D., Dorschner, J. & Hron, J. 1999, A&A, 352, 609Google Scholar
Russell, R. W., Soifer, B. T., & Willner, S. P. 1977, ApJ (Letters), 217, L149CrossRefGoogle Scholar
Sakata, A., Wada, S., Onaka, T., & Tokunaga, A.T. 1987, ApJ (Letters), 320, L63CrossRefGoogle Scholar
Sakata, A., Wada, S., Narisawa, T. et al. 1992, ApJ (Letters), 393, L83CrossRefGoogle Scholar
Scott, A. D., Duley, W. W., & Jahani, H. R. 1997, ApJ (Letters), 490, L175CrossRefGoogle Scholar
Speck, A. K. & Hofmeister, A. N. 2004, ApJ, 600, 986CrossRefGoogle Scholar
Van Kerckhoven, C., et al. 2000, A&A, 357, 1013Google Scholar
Witt, A. NJ., Gordon, K. D., & Furton, D. G. 1998, ApJ (Letters), 501, L111CrossRefGoogle Scholar
Woolf, N. J. & Ney, E. P. 1969. ApJ (Letters), 155, L181CrossRefGoogle Scholar