Other
Scientific paper
Jan 1977
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1977sci...195..208m&link_type=abstract
Science, vol. 195, Jan. 14, 1977, p. 208, 209; Reply, p. 209, 210.
Other
16
Heavy Elements, Meteoritic Composition, Nuclear Fusion, Solar Corpuscular Radiation, Solar Neutrinos, Xenon Isotopes, Carbonaceous Chondrites, Cosmology, Minerals, Radioactive Age Determination, Rare Gases, Supernovae
Scientific paper
Authors Manuel and Sabu challenge an earlier explanation of enrichment of the heavy Xe isotopes in mineral fractions of the Allende meteorite by Anders et al. (1975) invoking in situ decay of a volatile superheavy element 115 (or 114 or 113), and reassert earlier views attributing the isotopically anomalous Xe in Allende and other carbonaceous chondrites to prior incorporation and holding the elemental and isotopic ratios of noble gases in the meteoritic minerals to be records of primordial nucleosynthesis and to provide a possible explanation for the solar neutrino puzzle. Authors Anders et al. offer rebuttal of the challenge, summoning isotopic, chemical, and astrophysical counterevidence in recent work, and seek explanation for the anomalies in a solar protonebula, rejecting the Manuel-Sabu supernova hypothesis.
Manuel Oliver K.
Sabu D. D.
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