C. Feldstein scite author profile

Half of the heavy elements including all actinides are produced in r-process nucleosynthesis, whose sites and history remain a mystery. If continuously produced, the Interstellar Medium is expected to build-up a quasi-steady state of abundances of short-lived nuclides (with half-lives ≤100 My), including actinides produced in r-process nucleosynthesis. Their existence in today’s interstellar medium would serve as a radioactive clock and would establish that their production was recent. In particular 244Pu, a radioactive actinide nuclide (half-life=81 My), can place strong constraints on recent r-process frequency and production yield. Here we report the detection of live interstellar 244Pu, archived in Earth’s deep-sea floor during the last 25 My, at abundances lower than expected from continuous production in the Galaxy by about 2 orders of magnitude. This large discrepancy may signal a rarity of actinide r-process nucleosynthesis sites, compatible with neutron-star mergers or with a small subset of actinide-producing supernovae.

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Search for live 182Hf in deep-sea sediments

Vockenhuber

Feldstein

Paul

et al. 2004

New Astronomy Reviews

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Counting 44Ti nuclei from the 40Ca(α,γ)44Ti reaction

Paul¹,

Feldstein²,

Ahmad³

et al. 2003

Nuclear Physics A

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C. Feldstein

Abundance of live 244Pu in deep-sea reservoirs on Earth points to rarity of actinide nucleosynthesis

Search for live 182Hf in deep-sea sediments

Counting 44Ti nuclei from the 40Ca(α,γ)44Ti reaction

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