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Element abundance patterns in stars indicate fission of nuclei heavier than uranium.

Ian U RoedererNicole VasshErika M HolmbeckMatthew R MumpowerRebecca SurmanJohn J CowanTimothy C BeersRana EzzeddineAnna FrebelTerese T HansenVinicius M PlaccoCharli M Sakari
Published in: Science (New York, N.Y.) (2023)
The heaviest chemical elements are naturally produced by the rapid neutron-capture process ( r -process) during neutron star mergers or supernovae. The r -process production of elements heavier than uranium (transuranic nuclei) is poorly understood and inaccessible to experiments so must be extrapolated by using nucleosynthesis models. We examined element abundances in a sample of stars that are enhanced in r -process elements. The abundances of elements ruthenium, rhodium, palladium, and silver (atomic numbers Z = 44 to 47; mass numbers A = 99 to 110) correlate with those of heavier elements (63 ≤ Z ≤ 78, A > 150). There is no correlation for neighboring elements (34 ≤ Z ≤ 42 and 48 ≤ Z ≤ 62). We interpret this as evidence that fission fragments of transuranic nuclei contribute to the abundances. Our results indicate that neutron-rich nuclei with mass numbers >260 are produced in r -process events.
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