Skip to Main Content (Press Enter)

Logo UNIMI
  • ×
  • Home
  • People
  • Projects
  • Fields
  • Units
  • Outputs
  • Third Mission

Expertise & Skills
Logo UNIMI

|

Expertise & Skills

unimi.it
  • ×
  • Home
  • People
  • Projects
  • Fields
  • Units
  • Outputs
  • Third Mission
  1. Outputs

Stellar electron-capture rates based on finite-temperature relativistic quasiparticle random-phase approximation

Academic Article
Publication Date:
2020
Citation:
Stellar electron-capture rates based on finite-temperature relativistic quasiparticle random-phase approximation / A. Ravlic, E. Yuksel, Y.F. Niu, G. Colo', E. Khan, N. Paar. - In: PHYSICAL REVIEW C. - ISSN 2469-9985. - 102:6(2020), pp. 065804.1-065804.15. [10.1103/PhysRevC.102.065804]
abstract:
The electron-capture process plays an important role in the evolution of the core collapse of a massive star that precedes the supernova explosion. In this study, the electron capture on nuclei in stellar environment is described in the relativistic energy density functional framework, including both the finite-temperature and nuclear pairing effects. Relevant nuclear transitions J(pi) = 0(+/-), 1(+/-) , 2(+/- )are calculated using the finite-temperature proton-neutron quasiparticle random-phase approximation with the density-dependent meson-exchange effective interaction DD-ME2. The pairing and temperature effects are investigated in the Gamow-Teller transition strength as well as the electron-capture cross sections and rates for Ti-44 and Fe-56 in the stellar environment. It is found that the pairing correlations establish an additional unblocking mechanism similar to the finite-temperature effects, that can allow otherwise blocked single-particle transitions. Inclusion of pairing correlations at finite temperature can significantly alter the electron-capture cross sections, even up to a factor of 2 for Ti-44, while for the same nucleus electron-capture rates can increase by more than one order of magnitude. We conclude that for the complete description of electron capture on nuclei both pairing and temperature effects must be taken into account.
IRIS type:
01 - Articolo su periodico
List of contributors:
A. Ravlic, E. Yuksel, Y.F. Niu, G. Colo', E. Khan, N. Paar
Authors of the University:
COLO' GIANLUCA ( author )
Link to information sheet:
https://air.unimi.it/handle/2434/870334
Full Text:
https://air.unimi.it/retrieve/handle/2434/870334/1875344/2006.08803.pdf
https://air.unimi.it/retrieve/handle/2434/870334/1891989/PhysRevC.102.065804.pdf
Project:
European Nuclear Science and Application Research 2
  • Research Areas

Research Areas

Concepts


Settore FIS/04 - Fisica Nucleare e Subnucleare
  • Guide
  • Help
  • Accessibility
  • Privacy
  • Use of cookies
  • Legal notices

Powered by VIVO | Designed by Cineca | 26.6.2.0