2021
DOI: 10.3390/sym13101831
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Sensitivity of Neutron-Rich Nuclear Isomer Behavior to Uncertainties in Direct Transitions

Abstract: Nuclear isomers are populated in the rapid neutron capture process (r process) of nucleosynthesis. The r process may cover a wide range `of temperatures, potentially starting from several tens of GK (several MeV) and then cooling as material is ejected from the event. As the r-process environment cools, isomers can freeze out of thermal equilibrium or be directly populated as astrophysically metastable isomers (astromers). Astromers can undergo reactions and decays at rates very different from the ground state… Show more

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Cited by 22 publications
(13 citation statements)
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“…Additionally, nuclear physics models like FRDM2012 have a closed N = 126 shell far from stability, which in this simulation results in an overproduction of this peak relative to the solar residuals. Relevant nuclear physics uncertainties for r-process nucleosynthesis have been studied extensively in the works of Mumpower et al (2016b), Vassh et al (2019, Misch et al (2021), andMumpower et al (2022).…”
Section: Resultsmentioning
confidence: 99%
“…Additionally, nuclear physics models like FRDM2012 have a closed N = 126 shell far from stability, which in this simulation results in an overproduction of this peak relative to the solar residuals. Relevant nuclear physics uncertainties for r-process nucleosynthesis have been studied extensively in the works of Mumpower et al (2016b), Vassh et al (2019, Misch et al (2021), andMumpower et al (2022).…”
Section: Resultsmentioning
confidence: 99%
“…However, 26 Al has several isomers that complicate the decay chain. The ground state of 26 Al decays to 26 Mg with a half-life of ∼700 kyr; however, the excited state of 26 Al decays to 26 Mg in ∼6 s (Misch et al 2021). At the temperatures found in stellar envelopes, excited 26 Al decays to 26 Mg before it can de-excite back to its ground state; this rapidly converts most of the 26 Al into 26 Mg. Our nuclear network does not contain the 26 Al isomers, with the decay rate of 26 Al only considering the ground-state transitions.…”
Section: Al26mentioning
confidence: 99%
“…However, 26 Al has several isomers which complicate the decay chain. The ground state of 26 Al decays to 26 Mg with a half life of ∼ 700 kyr, however the excited state of 26 Al decays to 26 Mg in ∼ 6 seconds (Misch et al 2021). At the temperatures found in stellar envelopes, excited 26 Al decays to 26 Mg before it can de-excite back to its ground state, this rapidly converts most of the 26 Al into 26 Mg. Our nuclear network does not contain the 26 Al isomers, with the decay rate of 26 Al only considering the ground state transitions.…”
Section: Gamma Ray Emittersmentioning
confidence: 99%