Hostname: page-component-586b7cd67f-t7fkt Total loading time: 0 Render date: 2024-12-02T20:55:49.903Z Has data issue: false hasContentIssue false
  • English
  • Français

Molecular Abundances in the Envelopes Around Evolved Stars

Published online by Cambridge University Press:  12 April 2016

Hans Olofsson
Hans Olofsson*
Affiliation:
Onsala Space Observatory, S-43992 Onsala, Sweden

Extract

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.

Red giant stars on the asymptotic giant branch (AGB), AGB-stars, lose copious amounts of matter in a slow stellar wind (Olofsson 1993). Mass loss rates in excess of 10-4 M yr-1 have been measured. The primary observational consequence of this mass loss is the formation of an expanding envelope of gas and dust, a circumstellar envelope (CSE), that surrounds the star. This is a truly extended atmosphere that continues thousands of stellar radii away from the star. At the highest mass loss rates (which probably occur at the end of the AGB evolution) the CSE becomes so opaque that the photosphere is hidden and essentially all information about the object stems from the circumstellar emission. At some point on the AGB a star may change from being O-rich (i.e., the abundance of O is higher than that of C) to becoming C-rich (i.e., a carbon star where the abundance of C is higher than that of O) as a result of nuclear-processed material being dredged up to the surface. The chemical composition of the CSE will follow that of the central star, although with some time delay so that there may be some rare cases of O-rich CSEs around carbon stars. The mass loss decreases and changes its nature as the star leaves the AGB and starts its post-AGB evolution. Eventually the star becomes hot enough to ionize the inner part of the AGB-CSE and a planetary nebula (PN) is formed. The ultimate fate of the star is a long life as a slowly cooling white dwarf. The CSE will gradually disperse and its metal-enriched matter will mix with the interstellar medium, and thereby it contributes to the chemical evolution of a galaxy. The intense mass loss makes it possible for stars as massive as 8 M, i.e., the bulk of all stars in a galaxy, to follow this evolutionary sequence. Similar CSEs are also found around supergiants.

Type
Research Article
Information
International Astronomical Union Colloquium , Volume 146: Molecules in the Stellar Environment , 1994 , pp. 113 - 133
Copyright
Copyright © Springer-Verlag 1994

References

Alcolea, J., Bujarrabal, V., 1992, Astron. Astrophys., 253, 475 Google Scholar
Bachiller, R., Bujarrabal, V., Martin-Pintado, J., Gómez-González, J., 1989, Astron. Astrophys., 218, 252 Google Scholar
Bergman, P., Carlström, U., Olofsson, H., 1993, Astron. Astrophys., 268, 685 Google Scholar
Betz, A., 1987, in Astrochemistry , IAU Symp. No. 120, eds Vardya, M.S. and Tarafalar, S.P., Reidel, Dordrecht, p.327 Google Scholar
Bieging, J.H., Chapman, B., Welch, W.J., 1984, Astrophys. J., 285, 656 CrossRefGoogle Scholar
Bieging, J.H., Nguyen-Q-Rieu, , 1988, Astrophys. J., 329, L107 CrossRefGoogle Scholar
Bieging, J.H., Nguyen-Q-Rieu, , 1989, Astrophys. J., 343, L25 CrossRefGoogle Scholar
Bieging, J.H., Tafalla, M., 1993, Astron. J., 105, 576 CrossRefGoogle Scholar
Bohlin, R.C., Savage, B.D., Drake, J.F., 1978, Astrophys. J., 224, 132 CrossRefGoogle Scholar
Bowers, P.F., Johnston, K.J., Spencer, J.H., 1983, Astrophys. J., 274, 733 CrossRefGoogle Scholar
Bowers, P.F., Reid, M.J., Johnston, K.J., Spencer, J.H., Moran, J.M., 1980, Astrophys. J., 242, 1088 CrossRefGoogle Scholar
Bujarrabal, V., Fuente, A., Omont, A., 1993a, Astron. Astrophys., subm.Google Scholar
Bujarrabal, V., Fuente, A., Omont, A., 1993b, Astron. Astrophys., subm.Google Scholar
Bujarrabal, V., Gómez-González, J., Bachiller, R., Martín-Pintado, J., 1988, Astron. Astrophys., 204, 242 Google Scholar
Carlström, U., Olofsson, H., Johansson, L.E.B., Nguyen-Q-Rieu, , Sahai, R., 1990, in From Miras to Planetary Nebulae - Which Path for Stellar Evolution, eds Men-nessier, M.O. and Omont, A., Editions-Frontiers, p. 170 Google Scholar
Cernicharo, J., Bujarrabal, V., 1992, Astrophys. J., 401, L109 CrossRefGoogle Scholar
Cernicharo, J., Bujarrabal, V., Santarén, J.L., 1993, Astrophys. J., 407, L33 CrossRefGoogle Scholar
Cernicharo, J., Guélin, M., 1987, Astron. Astrophys., 183, LIO Google Scholar
Cernicharo, J., Guélin, M., Hein, H., Kahane, C., 1987a, Astron. Astrophys., 181, L9 Google Scholar
Cernicharo, J., Guélin, M., Menten, K.M., Walmsley, C.M., 1987b, Astron. Astrophys., 181, Ll Google Scholar
Cernicharo, J., Thum, C., Hein, H., John, D., Garcia, P., Mattioco, F., 1990, Astron. Astrophys., 231, L15 Google Scholar
Clegg, R.E.S., Hinkle, K.H., Lambert, D.L., 1982, MNRAS, 201, 95 CrossRefGoogle Scholar
Cohen, R.J., 1989, Reports on Progress in Physics, 52, 881 CrossRefGoogle Scholar
Cox, P., Omont, A., Huggins, P.J., Bachiller, R., Forveille, T., 1992, Astron. Astrophys., 266, 420 Google Scholar
Dayal, A., Bieging, J.H., 1993, Astrophys. J., 407, L37 CrossRefGoogle Scholar
Deguchi, S., Izumiura, H., Kaifu, N., Mao, X., Nguyen-Q-Rieu, , Ukita, N., 1990, Astrophys. J., 351, 522 CrossRefGoogle Scholar
Elitzur, M., 1992, Astronomical Masers, Kluwer, Dordrecht CrossRefGoogle Scholar
Gensheimer, P.D., Likkel, L., Snyder, L., 1992, Astrophys. J., 388, L31 CrossRefGoogle Scholar
Glassgold, A.E., Huggins, P.J., 1983, MNRAS, 203, 517 CrossRefGoogle Scholar
Glassgold, A.E., Omont, A., Guélin, M., 1992, Astrophys. J., 396, 115 CrossRefGoogle Scholar
Guilloteau, S., Omont, A., Lucas, R., 1987, Astron. Astrophys., 176, L24 Google Scholar
Gustafsson, B., 1989, Ann. Rev. Astr. Astroph., 27, 701 CrossRefGoogle Scholar
Howe, D.A., Millar, T.J., 1990, MNRAS, 244, 444 Google Scholar
Howe, D.A., Millar, T.J., Williams, D.A., 1992, MNRAS, 255, 217 CrossRefGoogle Scholar
Huggins, P.J., Glassgold, A.E., 1982, Astrophys. J., 252, 201 CrossRefGoogle Scholar
Izumiura, H.,1990, PhD thesis, Tokyo UniversityGoogle Scholar
Izumiura, H., Ukita, N., Kawabe, R., Kaifu, N., Tsuji, T., Unno, W., Koyama, K., 1987, Astrophys. J., 323, L81 CrossRefGoogle Scholar
Jaminet, P.A., Danchi, W.C., Sandell, G., Sutton, E.C., 1992, Astrophys. J., 400, 535 CrossRefGoogle Scholar
Jewell, P.R., Snyder, L.E., Walmsley, C.M., Wilson, T.L., 1991, Astron. Astrophys., 242, 211 Google Scholar
Jura, M., 1991, Astrophys. J., 372, 208 CrossRefGoogle Scholar
Jura, M., Morris, M., 1981, Astrophys. J., 251, 181 CrossRefGoogle Scholar
Kahane, C., Gómez-González, J., Cernicharo, J., Guélin, M., 1988, Astron. Astrophys., 190, 167 Google Scholar
Kahane, C., Cernicharo, J., Gómez-González, J., Guélin, M.:, 1992, Astron. Astrophys., 256, 235 Google Scholar
Kawaguchi, K., Kagi, E., Hirano, T., Takáno, S., Saito, S., 1993, Astrophys. J., 406, L39 CrossRefGoogle Scholar
Knapp, G.R., Chang, K.M., 1985, Astrophys. J., 293, 281 CrossRefGoogle Scholar
Lambert, D.L., Gustafsson, B., Eriksson, K., Hinkle, K.H., 1986, Astrophys. J. Suppl., 62, 373 CrossRefGoogle Scholar
Lazaro, C., Lynas-Gray, A.E., Clegg, R.E.S., Mountain, C.M., Zadrożny, A., 1991, MNRAS, 249, 62 CrossRefGoogle Scholar
Lewis, B.M., 1989, Astrophys. J., 338, 234 CrossRefGoogle Scholar
Lewis, B.M., 1990, Astron. J., 99, 710 CrossRefGoogle Scholar
Lewis, B.M., Engels, D., 1991, MNRAS, 251, 391 CrossRefGoogle Scholar
Lindqvist, M., Nyman, L.-Å., Olofsson, H., Winnberg, A., 1988, Astron. Astrophys., 205, Ll Google Scholar
Lindqvist, M., Olofsson, H., Winnberg, A., Nyman, L.-Å., 1992, Astron. Astrophys., 263, 183 Google Scholar
Lucas, R., Cernicharo, J., 1989, Astron. Astrophys., 218, L20 Google Scholar
Lucas, R., Guélin, M., 1990, in Submillimetre Astronomy, eds Watt, G.D. and Webster, A.S., Kluwer, Dordrecht, p.97 CrossRefGoogle Scholar
Lucas, R., et al., 1992, Astron. Astrophys., 262, 491 Google Scholar
Mamon, G.A., Glassgold, A.E., Huggins, P.J., 1988, Astrophys. J., 328, 797 CrossRefGoogle Scholar
Menten, K.M., Melnick, G.J., 1989, Astrophys. J., 341, L91 CrossRefGoogle Scholar
Menten, K.M., Melnick, G.J., 1991, Astrophys. J., 377, 647 CrossRefGoogle Scholar
Menten, K.M., Melnick, G.J., Phillips, T.G., 1990, Astrophys. J., 350, L41 CrossRefGoogle Scholar
Millar, T.J., 1988, in Rate Coefficients in Astrochemistry, eds Millar, T.J. and Williams, D.A., Kluwer, Dordrecht, p. 287 CrossRefGoogle Scholar
Nejad, L., Millar, T.J., 1987, Astron. Astrophys., 183, 279 Google Scholar
Nejad, L., Millar, T.J., 1988, MNRAS, 230, 79 CrossRefGoogle Scholar
Nercessian, E., Guilloteau, S., Omont, A., Benayoun, J.J., 1989, Astron. Astrophys., 210, 225 Google Scholar
Nguyen-Q-Rieu, , Bujarrabal, V., Olofsson, H., Johansson, L.E.B., Turner, B.E., 1984, Astrophys. J., 286, 276 CrossRefGoogle Scholar
Nyman, L.-Å., Olofsson, H., 1985, Astron. Astrophys., 147, 309 Google Scholar
Nyman, L.-Â., Olofsson, H., Johansson, L.E.B., Booth, R.S., Carlström, U., Wolstencroft, R., 1993, Astron. Astrophys., 269, 373 Google Scholar
Olofsson, H.: 1993, in Mass Loss on the AGB and Beyond, ed. Schwarz, H., in pressGoogle Scholar
Olofsson, H., Carlström, U., Eriksson, ?., Gustafsson, B., 1992, Astron. Astrophys., 253, L17 Google Scholar
Olofsson, H., Eriksson, ?., Gustafsson, B., Carlström, U., 1993a, Astrophys. J. Suppl., 87, 267 CrossRefGoogle Scholar
Olofsson, H., Eriksson, K., Gustafsson, B., Carlström, U., 1993b, Astrophys. J. Suppl., 87, 305 CrossRefGoogle Scholar
Olofsson, H., Lindqvist, M., Winnberg, A., Nyman, L.-Å., 1993c, in prep.Google Scholar
Omont, A., Lucas, R., Morris, M., Guilloteau, S., 1993, Astron. Astrophys., 267, 490 Google Scholar
Sahai, R., Bieging, J.H., 1993, Astron. J., 105, 595 CrossRefGoogle Scholar
Sahai, R., Wannier, P.G., 1992, Astrophys. J., 394, 320 CrossRefGoogle Scholar
Scalo, J.M., Slavsky, D.B., 1980, Astrophys. J., 239, L73 CrossRefGoogle Scholar
Smith, V.V., Lambert, D., 1990, Astrophys. J. Suppl, 72, 387 CrossRefGoogle Scholar
Solomon, P., Jefferts, K.B., Penzias, A.A., Wilson, R.W., 1971, Astrophys. J., 163, L53 CrossRefGoogle Scholar
Sopka, R. J., Olofsson, H., Johansson, L.E.B., Nguyen-Q-Rieu, , Zuckerman, B., 1989, Astron. Astrophys., 210, 78 Google Scholar
Takáno, S., Saito, S., Tsuji, T., 1992, PASJ, 44, 469 Google Scholar
Truong-Bach, , Nguyen-Q-Rieu, , 1989, Astron. Astrophys., 214, 267 Google Scholar
Truong-Bach, , Morris, D., Nguyen-Q-Rieu, , 1992, Astron. Astrophys., 249, 435 Google Scholar
Truong-Bach, , Morris, D., Nguyen-Q-Rieu, , Deguchi, S., 1990, Astron. Astrophys., 230, 431 Google Scholar
Turner, B.E., 1987a, Astron. Astrophys., 182, L15 Google Scholar
Turner, B.E., 1987b, Astron. Astrophys., 183, L23 Google Scholar
van der Veen, W.E.C.J., Habing, H.J., 1988, Astron. Astrophys., 194, 125 Google Scholar
van der Veen, W.E.C. J., Olofsson, H., 1990, in Front Miras to Planetary Nebulae - Which Path for stellar Evolution, eds Mennessier, M.O. and Omont, A., Editions-Frontiers, p. 139 Google Scholar
van Dishoeck, E.F., 1988, in Rate Coefficients in Astrochemistry, eds Millar, T.J. and Williams, D.A., Kluwer, Dordrecht, p. 49 CrossRefGoogle Scholar
Wannier, P., Sahai, R., 1987, Astrophys. J., 319, 367 CrossRefGoogle Scholar
Wannier, P. Andersson, B.-G., Olofsson, H., Ukita, N., Young, K., 1992, Astrophys. J., 380, 593 CrossRefGoogle Scholar
Wilson, W.J., Barrett, A.H., 1968, Science, 161, 778 CrossRefGoogle Scholar