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Main Authors: Alkhajeh, Mohamed A., Al-Wardat, Mashhoor A., Kasawneh, Awni M., Talafha, Mohammed H.
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2602.18566
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author Alkhajeh, Mohamed A.
Al-Wardat, Mashhoor A.
Kasawneh, Awni M.
Talafha, Mohammed H.
author_facet Alkhajeh, Mohamed A.
Al-Wardat, Mashhoor A.
Kasawneh, Awni M.
Talafha, Mohammed H.
contents The elemental abundances of neon isotopes provide valuable insights into stellar evolution and nucleosynthesis. In this study, we calculate the abundances of the isotopes 18Ne, 19Ne, 20Ne, 21Ne, and 22Ne across the five principal evolutionary phases of the Sun: hydrogen burning, lively old age, onset of rapid growth and red giant, helium burning and helium exhaustion. The calculations were carried out using the open-source nucnet-tools package, developed by the Webnucleo Group at Clemson University. Initial isotope abundances were adopted from standard proto-solar compositions. Their evolution was computed under static hydrostatic burning conditions, assuming constant temperature and density within each phase. The results show that the stable isotopes 20Ne and 22Ne remain dominant throughout the Sun's lifetime, whereas the short-lived isotopes 18Ne and 19Ne decay rapidly during or shortly after the hydrogen-burning phase. The predictions obtained for the helium burning and exhaustion phases provide quantitative neon-isotope abundances that are not extensively reported in the existing literature. These results offer valuable reference values for future studies of solar and stellar evolution, nucleosynthetic pathways, and isotopic modeling.
format Preprint
id arxiv_https___arxiv_org_abs_2602_18566
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Abundance Calculations of Neon Isotopes in the Predicted Lifetime of the Sun
Alkhajeh, Mohamed A.
Al-Wardat, Mashhoor A.
Kasawneh, Awni M.
Talafha, Mohammed H.
Solar and Stellar Astrophysics
The elemental abundances of neon isotopes provide valuable insights into stellar evolution and nucleosynthesis. In this study, we calculate the abundances of the isotopes 18Ne, 19Ne, 20Ne, 21Ne, and 22Ne across the five principal evolutionary phases of the Sun: hydrogen burning, lively old age, onset of rapid growth and red giant, helium burning and helium exhaustion. The calculations were carried out using the open-source nucnet-tools package, developed by the Webnucleo Group at Clemson University. Initial isotope abundances were adopted from standard proto-solar compositions. Their evolution was computed under static hydrostatic burning conditions, assuming constant temperature and density within each phase. The results show that the stable isotopes 20Ne and 22Ne remain dominant throughout the Sun's lifetime, whereas the short-lived isotopes 18Ne and 19Ne decay rapidly during or shortly after the hydrogen-burning phase. The predictions obtained for the helium burning and exhaustion phases provide quantitative neon-isotope abundances that are not extensively reported in the existing literature. These results offer valuable reference values for future studies of solar and stellar evolution, nucleosynthetic pathways, and isotopic modeling.
title Abundance Calculations of Neon Isotopes in the Predicted Lifetime of the Sun
topic Solar and Stellar Astrophysics
url https://arxiv.org/abs/2602.18566