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Carbon Star Dust from Meteorites

Published online by Cambridge University Press:  25 May 2016

Uffe Gråe Jørgensen  and
Anja C. Andersen
Uffe Gråe Jørgensen
Affiliation:
Niels Bohr Institute, Copenhagen University Observatory, Copenhagen, Denmark
Anja C. Andersen
Affiliation:
Niels Bohr Institute, Copenhagen University Observatory, Copenhagen, Denmark

Abstract

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Inside carbonaceous chondrite meteorites are tiny dust particles which, when heated, release noble gases with an isotopic composition different from what is found anywhere else in the solar system. For this reason it is believed that these grains are (inter)stellar dust which survived the collapse of the interstellar cloud that became the solar system. We will describe here why we believe that the most abundant of these grains, micro-diamonds, were formed in the atmospheres of carbon stars, and explain how this theory can be tested observationally.

Type
Session VII — Mass-Loss, Winds, and Formation of Dust Grains
Information
Symposium - International Astronomical Union , Volume 177: The Carbon Star Phenomenon , 2000 , pp. 349 - 357
Copyright
Copyright © Kluwer 2000 

References

Amari, S., Hoppe, P., Zinner, E. & Lewis, R. S. 1993, Nature, 365, 806 Google Scholar
Amari, S., Hoppe, P., Zinner, E. & Lewis, R. S. 1995a, Meteoritics, 30, 679 Google Scholar
Amari, S., Lewis, R. S. & Anders, E. 1994, Geochim. Cosmochim. Acta, 58, 459 Google Scholar
Amari, S., Lewis, R. S. & Anders, E. 1995b, Geochim. Cosmochim. Acta, 59, 1411 Google Scholar
Anders, E. & Zinner, E. 1993, Meteoritics, 28, 490 Google Scholar
Andersen, A. C., J⊘rgensen, U. G., Nicolaisen, F. M., S⊘rensen, P. G. & Glejb⊘l, K. 1998, A&A, 330, 1080 Google Scholar
Bernatowicz, T. J., Amari, S. & Lewis, R. S. 1992, Lunar Planet. Sci., 23, 91 Google Scholar
Bernatowicz, T. J., Amari, S. & Lewis, R. S. 1994, Lunar Planet. Sci., 25, 103 Google Scholar
Bernatowicz, T. J., Amari, S., Zinner, E. & Lewis, R. S. 1991, ApJ, 373, L73 Google Scholar
Clayton, D. D. 1989, ApJ, 340, 613 Google Scholar
Clayton, D. D., Mayer, B. S., Sanderson, C. I., Russel, S. S. & Phillinger, C. T. 1995, ApJ, 447, 894 Google Scholar
Fraundorf, P., Fraundorf, G., Bernatowicz, T., Lewis, R. S. & Tang, M. 1989, Ultra-microscopy, 27, 401 Google Scholar
Gallino, R., Busso, M., Picchio, G. & Raitari, C. M. 1990, Nature, 348, 298 Google Scholar
Hoppe, P., Amari, S., Zinner, E., Ireland, T. & Lewis, R. S. 1994, ApJ, 430, 870 Google Scholar
Hoppe, P., Amari, S., Zinner, E. & Lewis, R. S. 1995, Geochim. Cosmochim. Acta, 59, 4029 Google Scholar
Huss, G. R. & Lewis, R. S. 1994a, Meteoritics, 29, 791 Google Scholar
Huss, G. R. & Lewis, R. S. 1994b, Meteoritics, 29, 811 Google Scholar
J⊘rgensen, U. G. 1988, Nature, 332, 702 Google Scholar
Käppeler, F., Beer, H. & Wisshak, K. 1989, Reports on Progress in Physics, 52, 945 Google Scholar
Koike, C., Wickramasinghe, C., Kano, N., Yamakoshi, K., Yamanoto, T., Kaito, C., Kimura, S. & Okuda, H. 1995, MNRAS, 277, 986 Google Scholar
Lambert, D. L. 1992 Astron. Astrophys. Rev., 3, 201 Google Scholar
Lambert, D. L., Gustafsson, B., Eriksson, K. & Hinkle, K. H. 1986, ApJ Supp., 62, 373 Google Scholar
Lewis, R. S. 1992, published in Colangeli, L., Mennella, V., Stephens, J.R. & Bussoletti, E. 1994, A&A, 284, 583 Google Scholar
Lewis, R. S., Amari, S. & Anders, E. 1994, Geochim. Cosmochim. Acta, 58, 471 Google Scholar
Lewis, R. S. & Anders, E. 1983, Sci. Am., 549, 54 Google Scholar
Lewis, R. S., Anders, E. & Draine, B. T. 1989, Nature 339, 117 Google Scholar
Lewis, R. S., Huss, G. R. & Lugmair, G. W. 1991, Lunar Planet. Sci., 22, 807 Google Scholar
Lewis, R. S., Tang, M., Wacker, J. F., Anders, E. & Steel, E. 1987, Nature, 326, 160 Google Scholar
Lodders, K. & Fegley, B. Jr. 1995, Meteoritics, 30, 661 Google Scholar
Mutschke, H., Corschner, J., Henning, Th. & Jäger, C. 1995, ApJ, 454, L157 CrossRefGoogle Scholar
Nittler, L. R., Alexander, C.M. O'D, Gao, X., Walker, R. M. & Zinner, E. 1994, Nature, 370, 443 Google Scholar
Nittler, L. R. et al. 1995, ApJ, 453, L25 Google Scholar
Ott, U. 1993, in Protostars and Planets III, ed. Levy, E. H. and Lunine, J. I. (Univ. Arizona Press), p. 883 Google Scholar
Ott, U. 1996, ApJ, 463, 344 Google Scholar
Ott, U., Begemann, F., Yang, J. & Epstein, S. 1988, Nature, 332, 700 Google Scholar
Russel, S. S., Arden, J. W. & Pillinger, C. T. 1991, Science, 254, 1188 Google Scholar
Russel, S. S., Lee, M. R., Arden, J. W. & Pillinger, C. T. 1995, Meteoritics, 30, 399 Google Scholar
Sedlmayr, E. 1994, in IAU Coll. 146: Molecules in the Stellar Environment, ed. J⊘rgensen, U. G. (Springer), p. 163 Google Scholar
Virag, A., Zinner, E., Lewis, R. S. & Tang, M. 1989, Lunar Planet. Sci., 20, 1158 Google Scholar
Wdowiak, T. J., Flickinger, G. C. & Cronin, J. R. 1988, ApJ, 328, L75 Google Scholar
Zinner, E. 1995, in Nuclei in the Cosmos III, ed. Busso, M., Gallino, R. and Raiteri, C. M., AIP Conf. Proc., 327, p. 567 Google Scholar
Zinner, E., Amari, S., Wopenka, B. & Lewis, R. S. 1995, Meteoritics, 30, 209 Google Scholar
Zinner, E., Tang, M. & Anders, E. 1989, Geochim. Cosmochim. Acta, 53, 3273 Google Scholar
Zinner, E., Wopenka, B., Amari, S. & Anders, E. 1990, Lunar Planet. Sci., 21, 1379 Google Scholar