Saved in:
Bibliographic Details
Main Authors: Ullah, Asim, Nabi, Jameel-Un
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2501.06742
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1866909454534967296
author Ullah, Asim
Nabi, Jameel-Un
author_facet Ullah, Asim
Nabi, Jameel-Un
contents We reexamine the weak interaction nuclei having largest contribution to the lepton to baryon fraction Ye by coupling the stellar weak rates and mass abundances for post silicon burning conditions during the presupernova evolution of massive stars. The stellar weak rates were recently calculated by Nabi et al. 2021 employing the fully microscopic pnQRPA model without invoking the Brink Axel hypothesis. We compute the mass abundances for a total of 728 nuclei, with A equal 1to 100, using Sahas equation and assuming nuclear statistical equilibrium with the incorporation of Coulomb correction factor to the chemical potential. We compile a list of top 50 electron capture ec and \b{eta} decay bd nuclei on the basis of largest contribution to Ye forpost silicon burning conditions where 11 percent ec and 6percent bd nuclei debuted dueto Coulomb corrections. The calculated mass abundances and corresponding Ye values are enhanced up to 3 orders of magnitude for heavier nuclei once Coulomb corrections were incorporated. This enhancement led to anincrement in total Y bde and Yece values, at Ye equal to 0.425 (\r{ho} equal 2.20 multiply 109 g/cm3 of 80percent and 91percent respectively. After incorporating the Coulomb corrections we propose a revised interval of Ye equal 0.423 0.455 where bd rates surpass thecompeting ec rates and is 3.2 percent bigger than the one suggested by Nabi et al. (2021).
format Preprint
id arxiv_https___arxiv_org_abs_2501_06742
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Impact of Coulomb Correction Factor on Rate of Change of Lepton Fraction during Presupernova Evolution
Ullah, Asim
Nabi, Jameel-Un
Solar and Stellar Astrophysics
We reexamine the weak interaction nuclei having largest contribution to the lepton to baryon fraction Ye by coupling the stellar weak rates and mass abundances for post silicon burning conditions during the presupernova evolution of massive stars. The stellar weak rates were recently calculated by Nabi et al. 2021 employing the fully microscopic pnQRPA model without invoking the Brink Axel hypothesis. We compute the mass abundances for a total of 728 nuclei, with A equal 1to 100, using Sahas equation and assuming nuclear statistical equilibrium with the incorporation of Coulomb correction factor to the chemical potential. We compile a list of top 50 electron capture ec and \b{eta} decay bd nuclei on the basis of largest contribution to Ye forpost silicon burning conditions where 11 percent ec and 6percent bd nuclei debuted dueto Coulomb corrections. The calculated mass abundances and corresponding Ye values are enhanced up to 3 orders of magnitude for heavier nuclei once Coulomb corrections were incorporated. This enhancement led to anincrement in total Y bde and Yece values, at Ye equal to 0.425 (\r{ho} equal 2.20 multiply 109 g/cm3 of 80percent and 91percent respectively. After incorporating the Coulomb corrections we propose a revised interval of Ye equal 0.423 0.455 where bd rates surpass thecompeting ec rates and is 3.2 percent bigger than the one suggested by Nabi et al. (2021).
title Impact of Coulomb Correction Factor on Rate of Change of Lepton Fraction during Presupernova Evolution
topic Solar and Stellar Astrophysics
url https://arxiv.org/abs/2501.06742