The Abundance of Heavy Elements in Interstellar Gas
Abstract
The Goddard high-resolution spectrograph aboard the Hubble Space Telescope has been used to produce interstellar abundance measures of gallium, germanium, arsenic, krypton, tin, thallium, and lead, the heaviest elements detected in interstellar gas. These heavy elements arise from stellar nuclear processes (slow- and rapid-process neutron capture) that are different from those that produce zinc and the lighter elements previously observed. These data allow investigators to study how the heavy elements chemically interact with interstellar dust and to compare interstellar heavy element abundances in the current galactic epoch to those present at the time of the formation of the solar system. For example, the data indicate that the abundance of atoms in interstellar dust cannot be explained by simple condensation models alone and must be heavily influenced by chemistry in the interstellar medium. Also, the data for some elements suggest that their true galactic cosmic abundances may be different from the "fossil" abundances incorporated into the solar system 4.6 billion years ago.
References
ANDERS, E, ABUNDANCES OF THE ELEMENTS - METEORITIC AND SOLAR, GEOCHIMICA ET COSMOCHIMICA ACTA 53: 197 (1989).
BARLOW, M.J., DESTRUCTION AND GROWTH OF DUST GRAINS IN INTER-STELLAR SPACE .3. SURFACE RECOMBINATION, HEAVY ELEMENT DEPLETION AND MANTLE GROWTH, MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY 183: 417 (1978).
CAMERON, AGW, THE HEAVY ELEMENT YIELDS OF NEUTRON-CAPTURE NUCLEOSYNTHESIS, ASTROPHYSICS AND SPACE SCIENCE 82: 123 (1982).
CARDELLI, J.A., INTERSTELLAR GAS-PHASE ABUNDANCE OF CARBON, OXYGEN, NITROGEN, COPPER, GALLIUM, GERMANIUM, AND KRYPTON TOWARD ZETA-OPHIUCHI, ASTROPHYSICAL JOURNAL 383: L23 (1991).
CARDELLI, J.A., ABUNDANCE OF INTERSTELLAR CARBON TOWARD ZETA-OPHIUCHI, ASTROPHYSICAL JOURNAL 402: L17 (1993).
CARDELLI, J.A., ULTRAVIOLET TRANSITIONS OF LOW CONDENSATION TEMPERATURE HEAVY-ELEMENTS AND NEW DATA FOR INTERSTELLAR ARSENIC, SELENIUM, TELLURIUM, AND LEAD, ASTROPHYSICAL JOURNAL 416: L41 (1993).
CARDELLI, J.A., INTERSTELLAR DETECTION OF THE INTERSYSTEM LINE SI-II] LAMBDA-2335 TOWARD XI-OPHIUCHI, ASTROPHYSICAL JOURNAL 420: L29 (1994).
Cardelli, J. A., Attaining High Signal-to-Noise Data with the Goddard High Resolution Spectrograph (1993).
CHAN, W.F., ABSOLUTE OPTICAL OSCILLATOR-STRENGTHS FOR THE ELECTRONIC EXCITATION OF ATOMS AT HIGH-RESOLUTION .3. THE PHOTOABSORPTION OF ARGON, KRYPTON, AND XENON, PHYSICAL REVIEW A 46: 149 (1992).
FEDERMAN, S.R., ON THE DETECTION OF RUBIDIUM IN DIFFUSE INTERSTELLAR CLOUDS, ASTROPHYSICAL JOURNAL 290: L55 (1985).
FEDERMAN, S.R., DETECTION OF BORON, COBALT, AND OTHER WEAK INTERSTELLAR LINES TOWARD ZETA-OPHIUCHI, ASTROPHYSICAL JOURNAL 413: L51 (1993).
Gallino, R., Chemical and Dynamical Evolution of Galaxies: 338 (1990).
GIES, D.R., CARBON, NITROGEN, AND OXYGEN ABUNDANCES IN EARLY B-TYPE STARS, ASTROPHYSICAL JOURNAL 387: 673 (1992).
GRIFFIN, P. M., JOURNAL OF THE OPTICAL SOCIETY OF AMERICA 59: 1607 (1969).
HOBBS, L.M., THE INTERSTELLAR ABUNDANCES OF TIN AND 4 OTHER HEAVY-ELEMENTS, ASTROPHYSICAL JOURNAL 411: 750 (1993).
JENKINS, E.B., ABUNDANCES OF INTERSTELLAR ATOMS FROM ULTRAVIOLET-ABSORPTION LINES, ASTROPHYSICAL JOURNAL 301: 355 (1986).
Jenkins, E. B., Interstellar Processes: 533 (1987).
JOSEPH, C.L., ARE RELATIVE DEPLETIONS ALTERED INSIDE DIFFUSE CLOUDS, ASTROPHYSICAL JOURNAL 335: 157 (1988).
JURA, M, DISCOVERY OF INTER-STELLAR RUBIDIUM, ASTROPHYSICAL JOURNAL 251: L43 (1981).
MORTON, D.C., INTERSTELLAR ABSORPTION-LINES IN SPECTRUM OF ZETA OPHIUCHI, ASTROPHYSICAL JOURNAL 197: 85 (1975).
MORTON, D.C., ATOMIC DATA FOR RESONANCE-ABSORPTION LINES .1. WAVELENGTHS LONGWARD OF THE LYMAN LIMIT, ASTROPHYSICAL JOURNAL SUPPLEMENT SERIES 77: 119 (1991).
OTT, U, INTERSTELLAR GRAINS IN METEORITES, NATURE 364: 25 (1993).
RAITERI, C.M., THE WEAK S-COMPONENT AND NUCLEOSYNTHESIS IN MASSIVE STARS, ASTROPHYSICAL JOURNAL 419: 207 (1993).
SAVAGE, B.D., ULTRAVIOLET OBSERVATIONS OF THE GAS-PHASE ABUNDANCES IN THE DIFFUSE CLOUDS TOWARD ZETA-OPHIUCHI AT 3.5 KILOMETERS PER 2ND RESOLUTION, ASTROPHYSICAL JOURNAL 401: 706 (1992).
Sofia, U. J., Astrophysical Journal 430: 650 (1994).
TRIMBLE, V, ASTRONOMY AND ASTROPHYSICS REVIEW 3: 1 (1991).
Waddington, C. J., Origins of the Elements: 295 (1988).
Wasson, J. T., Meteorites: Their Record of the Early Solar System History (1985).
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Published In
Science
Volume 265 | Issue 5169
8 July 1994
8 July 1994
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1994 by the American Association for the Advancement of Science.
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Received: 3 March 1994
Accepted: 22 April 1994
Published in print: 8 July 1994
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