Ultra-heavy cosmic-ray science--Are r-process nuclei in the cosmic rays produced in supernovae or binary neutron star mergers?
W.R. Binns, M.H. Israel, B.F. Rauch, A.C. Cummings, A.J. Davis, A.W., Labrador, R.A. Leske, R.A Mewaldt, E.C. Stone, M.E. Wiedenbeck, T.J. Brandt,, E.R. Christian, J.T. Link, J.W. Mitchell, G.A. de Nolfo, T.T. von Rosenvinge,, K. Sakai, M. Sasaki, C.J. Waddington, H.T. Janka

TL;DR
This paper discusses whether the heaviest r-process nuclei in cosmic rays originate from supernovae or binary neutron star mergers, using recent detections and radioactive decay clocks to distinguish their sources.
Contribution
It proposes using the relative abundances of ultra-heavy r-process nuclei and actinides in cosmic rays to determine their astrophysical origins, testing models of nucleosynthesis in SNe and BNSM.
Findings
Detection of recent nucleosynthesis component in cosmic rays.
Radioactive actinides can serve as clocks to date nucleosynthesis events.
Ratios of actinides can distinguish between supernovae and neutron star mergers as sources.
Abstract
The recent detection of 60Fe in the cosmic rays provides conclusive evidence that there is a recently synthesized component (few MY) in the GCRs (Binns et al. 2016). In addition, these nuclei must have been synthesized and accelerated in supernovae near the solar system, probably in the Sco-Cen OB association subgroups, which are about 100 pc distant from the Sun. Recent theoretical work on the production of r-process nuclei appears to indicate that it is difficult for SNe to produce the solar system abundances relative to iron of r-process elements with high atomic number (Z), including the actinides (Th, U, Np, Pu, and Cm). Instead, it is believed by many that the heaviest r-process nuclei, or perhaps even all r-process nuclei, are produced in binary neutron star mergers. Since we now know that there is at least a component of the GCRs that has been recently synthesized and…
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Taxonomy
TopicsGamma-ray bursts and supernovae · Nuclear Physics and Applications · Radiation Therapy and Dosimetry
