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Abundances of hydrogen and helium isotopes in the Protosolar Cloud

Published online by Cambridge University Press:  23 April 2010

Johannes Geiss
Affiliation:
International Space Science Institute, Hallerstrasse 6, CH-3012 Bern, Switzerland, email: geiss@issibern.ch
George Gloeckler
Affiliation:
Department of Atmospheric, Oceanic and Space Sciences, University of Michigan, 2455 Hayward St., Ann Arbor, MI 48109, USA email: gglo@umich.edu
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Abstract

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For our understanding of the origin and evolution of baryonic matter in the Universe, the Protosolar Cloud (PSC) is of unique importance in two ways: 1) Up to now, many of the naturally occurring nuclides have only been detected in the solar system. 2) Since the time of solar system formation, the Sun and planets have been virtually isolated from the galactic nuclear evolution, and thus the PSC is a galactic sample with a degree of evolution intermediate between the Big Bang and the present.

The abundances of the isotopes of hydrogen and helium in the Protosolar Cloud are primarily derived from composition measurements in the solar wind, the Jovian atmosphere and “planetary noble gases” in meteorites, and also from observations of density profiles inside the Sun. After applying the changes in isotopic and elemental composition resulting from processes in the solar wind, the Sun and Jupiter, PSC abundances of the four lightest stable nuclides are given.

Type
Contributed Papers
Copyright
Copyright © International Astronomical Union 2010

References

Bahcall, J. N., Pinsonneault, M. H., & Wasserburg, G. J. 1995, Rev. Mod. Phys., 67, 781CrossRefGoogle Scholar
Beer, R. & Taylor, F. W. 1973, ApJ, 179, 309CrossRefGoogle Scholar
Bézard, B. 2002, in: Highlights in Astronomy (Astron. Soc. Pacific: San Francisco) Vol. 12, pp. 607Google Scholar
Bochsler, P. & Geiss, J. 1973, Solar Phys., 32, 3CrossRefGoogle Scholar
Bürgi, A. & Geiss, J. 1986, Solar Phys., 103, 347CrossRefGoogle Scholar
Busemann, H., Baur, H., & Wieler, R. 2000, Meteorites & Planetary Sci., 35, 949CrossRefGoogle Scholar
Charbonnel, C. 1998, in: Space Science Series of ISSI, SSSI-4, and Space Sci. Rev., 84, 199CrossRefGoogle Scholar
Drossart, P., Encrenaz, T., Combes, M., Kunde, V., & Hanel, R. 1982, Icarus, 49, 416426CrossRefGoogle Scholar
Eberhardt, P. 1974, Earth Planet. Sci. Lett., 24, 182CrossRefGoogle Scholar
Encrenaz, Th., de Graauw, Th., Schaeidt, S., Lellouch, E., Feuchtgruber, H., Beintema, D. A., Bézard, B., Drossart, P., Griffin, M., Heras, A., Kessler, M., Leech, K., Morris, P., Roelfsema, P. R., Roos-Serote, M., Salama, A., Vandenbussche, B., Valentijn, E. A., Davis, G. R., & Naylor, D. A. 1996, A&A, 315, L397Google Scholar
Ezer, D. & Cameron, A. G. W. 1965, in Solar Wind Three (University of California Press: Los Angeles), pp. 58Google Scholar
Frick, U. & Moniot, R. K. 1977, in Eighth Lunar Science Conference (Pergamon Press: New York), Vol. 1, pp. 229Google Scholar
Gautier, D. & Morel, P. 1997, A&A, 323, L9Google Scholar
Geiss, J. 1982, Space Sci. Rev., 33, 201CrossRefGoogle Scholar
Geiss, J. & Gloeckler, G. 1998, in Space Science Series of ISSI, SSSI-4, and Space Sci. Rev., 84, 239CrossRefGoogle Scholar
Geiss, J. & Gloeckler, G. 2003, in Space Science Series of ISSI, SSSI-16, and Space Sci. Rev., 106, 3CrossRefGoogle Scholar
Geiss, J. & Reeves, H. 1972, A&A, 18, 126Google Scholar
Geiss, J., Eberhardt, P., & Signer, P. 1966, Proposal to NASA for Apollo experiment S-080, (NASA archive, Record Number 14759)Google Scholar
Geiss, J., Eberhardt, P., Bühler, F., Meister, J., & Signer, P. 1970, J. Geophys. Res., 75, 5972CrossRefGoogle Scholar
Geiss, J., Hirt, P., & Leutwyler, H. 1970, Solar Phys., 12, 458CrossRefGoogle Scholar
Geiss, J., Bühler, F., Cerutti, H., Eberhardt, P., Filleux, Ch., Meister, J., & Signer, P. 2004, Space Sci. Rev., 110, 307CrossRefGoogle Scholar
Gloeckler, G. & Geiss, J. 1996, Nature, 381, 210CrossRefGoogle Scholar
Gloeckler, G. & Geiss, J. 2000, in The Light Elements and their Evolution, Proc. IAU-Symp. Vol. 198, (IAU: Natal, Brazil) pp. 224CrossRefGoogle Scholar
Grevesse, N. & Sauval, A. J. 1998, in Space Science Series of ISSI, SSSI-5, and Space Sci. Rev., 85, 161CrossRefGoogle Scholar
Guillot, T. 1999, Planet. Space Sci., 47, 1183CrossRefGoogle Scholar
Heber, V. S.Wieler, R., Baur, H., Olinger, C., Friedmann, T. A., & Burnett, D. S. 2009, Geochimica et Cosmochimica Acta, 73, 7414CrossRefGoogle Scholar
Isenberg, P. A. & Hollweg, J. V. 1983, J. Geophys. Res., 88, 3923CrossRefGoogle Scholar
Lellouch, E., Bézard, B., Fouchet, T., Feuchtgruber, H., Encrenaz, T., & de Graauw, T. 2001, A&A, 370, 610Google Scholar
Linsky, J. L. 1998, in Space Science Series of ISSI, SSSI-4, and Space Sci. Rev., 84, 285CrossRefGoogle Scholar
Mahaffy, P. R., Donahue, T. M., Atreya, S. K., Owen, T. C., & Niemann, H. B. 1998, in Space Science Series of ISSI, SSSI-4, and Space Sci. Rev., 84, 251CrossRefGoogle Scholar
Mazzitelli, I. & Moretti, M. 1980, ApJ, 235, 955CrossRefGoogle Scholar
Niemann, H. B., Atreya, S. K., Carignan, G. R., Donahue, T. M., Haberman, J. A., Harpold, D. N., Hartle, R. E., Hunten, D. M., Kasprzak, W. T., Mahaffy, P. R., Owen, T. C., Spencer, N. W., & Way, S. H. 1998, Science, 272, 846CrossRefGoogle Scholar
Owen, T. 2003, in Space Science Series of ISSI, SSSI-28, and Space Sci. Rev., 138, 301Google Scholar
Pérez Hernández, F. & Christensen-Dalsgaard, J. 1994, MNRAS, 269, 475CrossRefGoogle Scholar
Schatzman, E., Maeder, A., Angrand, F., & Glowinski, R. 1981, A&A, 96, 1Google Scholar
von Steiger, R. & Geiss, J. 1989, A&A, 225, 222Google Scholar
Stevenson, D. J. & Salpeter, E. E. 1976, in Jupiter (University of Arizona Press: Tucson), pp. 85Google Scholar
Tosi, M. 1998, in Space Science Series of ISSI, SSSI-4, and Space Sci. Rev., 84, 207CrossRefGoogle Scholar
Turck-Chièze, S., Nghiem, P., Couvidat, S., & Turcotte, S. 2001, Solar Phys., 200, 323CrossRefGoogle Scholar
Vauclair, S. 1998, in Space Science Series of ISSI, SSSI-4, and Space Sci. Rev., 84, 256Google Scholar
Wieler, R. & Heber, V. S. 2003, in Space Science Series of ISSI, SSSI-16, and Space Sci. Rev., 106, 197CrossRefGoogle Scholar
von Zahn, U., Hunten, D. M., & Lehmacher, G. 1998, J. Geophys. Res., 103, 22815CrossRefGoogle Scholar