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Tellurium in pre-solar diamonds as an indicator for rapid separation of supernova ejecta

S. Richter, U. Ott () and F. Begemann
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S. Richter: Max-Planck-Institut fr Chemie (Otto-Hahn-Institut)
U. Ott: Max-Planck-Institut fr Chemie (Otto-Hahn-Institut)
F. Begemann: Max-Planck-Institut fr Chemie (Otto-Hahn-Institut)

Nature, 1998, vol. 391, issue 6664, 261-263

Abstract: Abstract Carbon-rich ‘carbonaceous’ meteorites contain several types of dust grains with an isotopic signature that identifies them as being of pre-solar origin1,2,3. Of these grains, diamonds are of particular interest: such grains are by far the most abundant, and they host an isotopically anomalous ‘Xe-H’ component (characterized by a relative overabundance of the heaviest stable isotopes of xenon) which constitutes a notable fraction of the total amount of xenon in unprocessed ‘primitive’ meteorites. The isotope abundance ratios of this Xe-H cannot be accounted for by the canonical processes responsible for nucleosynthesis of the elements heavier than iron. An ad hoc neutron-capture process has been postulated4,5,6 to explain the observed isotope abundance ratios, but it has also been pointed out that standard ‘r-process’ nucleosynthesis (in supernovae) could work if the stable isotopes were somehow separated from their radioactive precursors in the first few hours after the explosion7. One way to distinguish between these mechanisms is to determine anomalies correlated for the heavy stable isotopes of tellurium in pre-solar diamond grains. Here we report such measurements, which support the suggestion that the isotopes were separated: the competing neutron-capture process cannot produce the observed abundances.

Date: 1998
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DOI: 10.1038/34605

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