Implications of the hypothesis of extinct fissioning isotope in the primitive meteorites

Details Implications of the hypothesis of extinct fissioning isotope in the primitive meteorites Implications of the hypothesis of extinct fissioning isotope in the primitive meteorites

Jul 1971

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1971phlb...35..557d&link_type=abstract

Physics Letters B, Volume 35, Issue 7, p. 557-559.

Physics

Scientific paper

It is shown that if the carbonaceous chondrite xenon anomaly was really caused by fission, its progenitor was the longest living isotope of superheavy elements (SHE) with a half-life of 2 × 106 y < T1/2 <~ 6 × 107 y. Then the search for SHE synthesized prior to the solar system formation would be fruitless.
On leave of absence from the Institute for Nuclear Research, Swierk near Warsaw, Poland.

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