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Main Authors: Jiang, Ziyue, Yuan, Hailong, Bai, Zhongrui, Yang, Mingkuan, Yang, Xiaozhen, Liu, Qian, He, Yuji, Li, Ganyu, Dong, Yiqiao, Wang, Mengxin, Zhou, Ming, Zhang, Haotong
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2509.01933
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author Jiang, Ziyue
Yuan, Hailong
Bai, Zhongrui
Yang, Mingkuan
Yang, Xiaozhen
Liu, Qian
He, Yuji
Li, Ganyu
Dong, Yiqiao
Wang, Mengxin
Zhou, Ming
Zhang, Haotong
author_facet Jiang, Ziyue
Yuan, Hailong
Bai, Zhongrui
Yang, Mingkuan
Yang, Xiaozhen
Liu, Qian
He, Yuji
Li, Ganyu
Dong, Yiqiao
Wang, Mengxin
Zhou, Ming
Zhang, Haotong
contents Mergers of double white dwarfs are considered significant potential progenitors of type Ia supernovae. Although there is no direct observational evidence to definitively determine the formation pathways of SNe Ia, studying the physical properties of DWDs provides valuable insights into their evolutionary processes, interaction modes, and merger mechanisms, which are essential for understanding the explosion mechanisms of SNe Ia. This study aims to identify DWD candidates through spectroscopic radial velocity measurements and analyze their physical properties based on DESI EDR. We crossmatched DESI EDR with the Gaia EDR3 to select DA. We measured the spectroscopic RV using the cross-correlation function and assessed the significance of RV variability using a chi-squared-based variability method. Spectroscopic Teff and log g were derived by fitting the hydrogen Balmer lines, with 3D convection corrections applied. Orbital periods and semi-amplitudes were obtained through a Lomb-Scargle analysis of the RV time series. We interpolated WD cooling models and applied Monte Carlo simulations to calculate masses, cooling ages, radii, and their associated uncertainties. We also analyzed their photometric and spectral energy distribution properties to derive photometric temperatures and radii, which were then compared with the corresponding spectroscopic parameters. We identified 33 DA DWD candidates with significant RV variability, including 28 new discoveries. Among them, we found an extremely low-mass DWD candidate and a potential triple system. For these candidates, we measured key physical parameters including Teff, log g, mass, and radius, and estimated the orbital periods based on the available data. Of these, 17 candidates exhibit relatively clear periodic RV variability in the current data, and we report their best-fitting periods and RV semi-amplitudes.
format Preprint
id arxiv_https___arxiv_org_abs_2509_01933
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle The survey of DA double white dwarf candidates based on DESI EDR
Jiang, Ziyue
Yuan, Hailong
Bai, Zhongrui
Yang, Mingkuan
Yang, Xiaozhen
Liu, Qian
He, Yuji
Li, Ganyu
Dong, Yiqiao
Wang, Mengxin
Zhou, Ming
Zhang, Haotong
Solar and Stellar Astrophysics
Mergers of double white dwarfs are considered significant potential progenitors of type Ia supernovae. Although there is no direct observational evidence to definitively determine the formation pathways of SNe Ia, studying the physical properties of DWDs provides valuable insights into their evolutionary processes, interaction modes, and merger mechanisms, which are essential for understanding the explosion mechanisms of SNe Ia. This study aims to identify DWD candidates through spectroscopic radial velocity measurements and analyze their physical properties based on DESI EDR. We crossmatched DESI EDR with the Gaia EDR3 to select DA. We measured the spectroscopic RV using the cross-correlation function and assessed the significance of RV variability using a chi-squared-based variability method. Spectroscopic Teff and log g were derived by fitting the hydrogen Balmer lines, with 3D convection corrections applied. Orbital periods and semi-amplitudes were obtained through a Lomb-Scargle analysis of the RV time series. We interpolated WD cooling models and applied Monte Carlo simulations to calculate masses, cooling ages, radii, and their associated uncertainties. We also analyzed their photometric and spectral energy distribution properties to derive photometric temperatures and radii, which were then compared with the corresponding spectroscopic parameters. We identified 33 DA DWD candidates with significant RV variability, including 28 new discoveries. Among them, we found an extremely low-mass DWD candidate and a potential triple system. For these candidates, we measured key physical parameters including Teff, log g, mass, and radius, and estimated the orbital periods based on the available data. Of these, 17 candidates exhibit relatively clear periodic RV variability in the current data, and we report their best-fitting periods and RV semi-amplitudes.
title The survey of DA double white dwarf candidates based on DESI EDR
topic Solar and Stellar Astrophysics
url https://arxiv.org/abs/2509.01933