Weak Transitions Effect from First Excited States in Core of Massive Star in Pre-supernova Phase

Massive stars in the pre-supernova stage are characterized by a compound core of chemical elements of the iron group, subject to nuclear reactions provided by the weak interaction. The rates at which these reactions occur, particularly the β -decay and the electron capture, influence the electron fr...

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Published inBrazilian journal of physics Vol. 55; no. 1
Main Authors Rocha, S. C., Samana, A. R., Dimarco, A. J., Barbero, C. A., dos Santos, M., De Conti, C.
Format Journal Article
LanguageEnglish
Published New York Springer US 01.02.2025
Springer Nature B.V
Subjects
Astronomical models
Beta decay
Chemical elements
Chemical reactions
Decay rate
Electron capture
Excitation
Gravitational collapse
Massive stars
Nuclear capture
Nuclear reactions
Particle decay
Physics
Physics and Astronomy
Stellar evolution
Supernovae
Electron capture
Beta decay
Gross theory
Electron fraction
Pre-supernova stage
Online AccessGet full text
ISSN0103-9733
1678-4448
DOI10.1007/s13538-024-01671-z

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Abstract Massive stars in the pre-supernova stage are characterized by a compound core of chemical elements of the iron group, subject to nuclear reactions provided by the weak interaction. The rates at which these reactions occur, particularly the β -decay and the electron capture, influence the electron fraction in the core, and these particles are responsible for generating a degeneracy pressure that counteracts the gravitational collapse. We calculate electron capture and β - -decay rates for a set of 63 nuclei (previously adopted in Dimarco et al., J. Phys. G Nucl. Part. Phys. 28 121 2002) of relevance in the pre-supernova stage for transitions not only from the ground state but also considering first excited states in the parent nucleus, using the gross theory of beta decay (GTBD) associated to Brink’s hypothesis. The evolution of the electron fraction has been calculated using these weak interaction rates, and the results have been compared with other models, showing that transitions between low-lying first excited states and Gamow-Teller resonances can contribute at this stage of stellar evolution as the temperature and density increase.
AbstractList Massive stars in the pre-supernova stage are characterized by a compound core of chemical elements of the iron group, subject to nuclear reactions provided by the weak interaction. The rates at which these reactions occur, particularly the β -decay and the electron capture, influence the electron fraction in the core, and these particles are responsible for generating a degeneracy pressure that counteracts the gravitational collapse. We calculate electron capture and β - -decay rates for a set of 63 nuclei (previously adopted in Dimarco et al., J. Phys. G Nucl. Part. Phys. 28 121 2002) of relevance in the pre-supernova stage for transitions not only from the ground state but also considering first excited states in the parent nucleus, using the gross theory of beta decay (GTBD) associated to Brink’s hypothesis. The evolution of the electron fraction has been calculated using these weak interaction rates, and the results have been compared with other models, showing that transitions between low-lying first excited states and Gamow-Teller resonances can contribute at this stage of stellar evolution as the temperature and density increase.
Massive stars in the pre-supernova stage are characterized by a compound core of chemical elements of the iron group, subject to nuclear reactions provided by the weak interaction. The rates at which these reactions occur, particularly the β-decay and the electron capture, influence the electron fraction in the core, and these particles are responsible for generating a degeneracy pressure that counteracts the gravitational collapse. We calculate electron capture and β--decay rates for a set of 63 nuclei (previously adopted in Dimarco et al., J. Phys. G Nucl. Part. Phys. 28 121 2002) of relevance in the pre-supernova stage for transitions not only from the ground state but also considering first excited states in the parent nucleus, using the gross theory of beta decay (GTBD) associated to Brink’s hypothesis. The evolution of the electron fraction has been calculated using these weak interaction rates, and the results have been compared with other models, showing that transitions between low-lying first excited states and Gamow-Teller resonances can contribute at this stage of stellar evolution as the temperature and density increase.
ArticleNumber 36
Author Dimarco, A. J.
Barbero, C. A.
De Conti, C.
Samana, A. R.
dos Santos, M.
Rocha, S. C.
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  organization: Faculdade de Engenharia e Ciências, Universidade Estadual Paulista - UNESP Rosana
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Keywords Electron capture
Beta decay
Gross theory
Electron fraction
Pre-supernova stage
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Snippet Massive stars in the pre-supernova stage are characterized by a compound core of chemical elements of the iron group, subject to nuclear reactions provided by...
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SubjectTerms Astronomical models
Beta decay
Chemical elements
Chemical reactions
Decay rate
Electron capture
Excitation
Gravitational collapse
Massive stars
Nuclear capture
Nuclear reactions
Particle decay
Physics
Physics and Astronomy
Stellar evolution
Supernovae
Title Weak Transitions Effect from First Excited States in Core of Massive Star in Pre-supernova Phase
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