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Main Authors: Mou, Jian, Chen, Hai-Liang, Jiang, Dengkai, Ge, Hongwei, Zhang, Lifu, Zheng, Rizhong, Chen, Xuefei, Han, Zhanwen
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2511.20147
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author Mou, Jian
Chen, Hai-Liang
Jiang, Dengkai
Ge, Hongwei
Zhang, Lifu
Zheng, Rizhong
Chen, Xuefei
Han, Zhanwen
author_facet Mou, Jian
Chen, Hai-Liang
Jiang, Dengkai
Ge, Hongwei
Zhang, Lifu
Zheng, Rizhong
Chen, Xuefei
Han, Zhanwen
contents Helium white dwarfs (He WDs) are end products of low-mass red giant donors in close binary systems via stable mass transfer or common envelope evolution. At the end of stable mass transfer, there is a well-known relation between the He WD mass and orbital period. Although this relation has been widely investigated, the influence of different types of opacity at low temperatures is ignored. In this work, we modeled the evolution of WD binaries with stellar evolution code MESA and two types of opacity at low temperatures from Ferguson et al. (2005) and Freedman et al. (2008, 2014). We investigated the relation between the WD mass and orbital period and compared these results with observations. We find that the relation derived from the opacity of Freedman et al. (2008, 2014) is below that from the opacity of Ferguson et al. (2005) and the relation derived from the opacity of Freedman et al. (2008, 2014) can better explain the observations. In addition, we provided fitting formulae for the relations derived from the opacity of Freedman et al. (2008,2014) at different metallicities.
format Preprint
id arxiv_https___arxiv_org_abs_2511_20147
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle The relation between helium white dwarf mass and orbital period under two types of opacity
Mou, Jian
Chen, Hai-Liang
Jiang, Dengkai
Ge, Hongwei
Zhang, Lifu
Zheng, Rizhong
Chen, Xuefei
Han, Zhanwen
Solar and Stellar Astrophysics
Helium white dwarfs (He WDs) are end products of low-mass red giant donors in close binary systems via stable mass transfer or common envelope evolution. At the end of stable mass transfer, there is a well-known relation between the He WD mass and orbital period. Although this relation has been widely investigated, the influence of different types of opacity at low temperatures is ignored. In this work, we modeled the evolution of WD binaries with stellar evolution code MESA and two types of opacity at low temperatures from Ferguson et al. (2005) and Freedman et al. (2008, 2014). We investigated the relation between the WD mass and orbital period and compared these results with observations. We find that the relation derived from the opacity of Freedman et al. (2008, 2014) is below that from the opacity of Ferguson et al. (2005) and the relation derived from the opacity of Freedman et al. (2008, 2014) can better explain the observations. In addition, we provided fitting formulae for the relations derived from the opacity of Freedman et al. (2008,2014) at different metallicities.
title The relation between helium white dwarf mass and orbital period under two types of opacity
topic Solar and Stellar Astrophysics
url https://arxiv.org/abs/2511.20147