First study of the $^{139}\text{Ba}(n,y)^{140}\text{Ba}$ reaction to constrain the conditions for the astrophysical $\mathcal{i}$ process

First study of the $^{139}\text{Ba}(n,y)^{140}\text{Ba}$ reaction to constrain the conditions for the astrophysical $\mathcal{i}$ process

New astronomical observations point to a nucleosynthesis picture that goes beyond what was accepted until recently. The intermediate “i” process was proposed as a plausible scenario to explain some of the unusual abundance patterns observed in metal-poor stars. The most important nuclear physics pro...

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Veröffentlicht in:Physical review letters 2024-05, Vol.132 (20)
Hauptverfasser: Spyrou, Artemisia, Mucher, Dennis, Denissenkov, Pavel A., Herwig, Falk, Good, Erin C., Balk, Gabriel, Berg, Hannah C., Bleuel, D L., Clark, Jason A., Dembski, Cade, Deyoung, Paul, Greaves, Beau, Guttormsen, M., Harris, Caley, Larsen, A. C., Liddick, Sean N., Lyons, Stephanie M., Markova, Maria, Mogannam, Mejdi J., Nikas, Stylianos, Owens-Fryar, Gerard Jordan, Palmisano-Kyle, Alicia, Perdikakis, George, Pogliano, Francesco, Quintieri, Michael, Richard, Andrea L., Santiago-Gonzalez, Daniel, Savard, Guy, Smith, Mallory K., Sweet, Adriana, Tsantiri, Artemis, Wiedeking, M
Format: Artikel
Sprache:eng
Schlagworte:
beta decay
gamma-ray strength functions
level densities
nuclear astrophysics
NUCLEAR PHYSICS AND RADIATION PHYSICS
nuclear reaction rates
nuclear reactions
nucleon induced nuclear reactions
radiation detectors
radiative capture
radioactive beams
thermal and statistical reactions
unstable nuclei induced nuclear reactions
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Zusammenfassung:New astronomical observations point to a nucleosynthesis picture that goes beyond what was accepted until recently. The intermediate “i” process was proposed as a plausible scenario to explain some of the unusual abundance patterns observed in metal-poor stars. The most important nuclear physics properties entering i-process calculations are the neutron-capture cross sections and they are almost exclusively not known experimentally. In this report we provide the first experimental constraints on the 139Ba(n,γ)140Ba reaction rate, which is the dominant source of uncertainty for the production of lanthanum, a key indicator of i-process conditions. This is an important step towards identifying the exact astrophysical site of stars carrying the i-process signature.
ISSN:0031-9007
1079-7114