English

EVR-CB-001: An evolving, progenitor, white dwarf compact binary discovered with the Evryscope

Solar and Stellar Astrophysics 2019-10-04 v2

Abstract

We present EVR-CB-001, the discovery of a compact binary with an extremely low mass (.21±0.05M.21 \pm 0.05 M_{\odot}) helium core white dwarf progenitor (pre-He WD) and an unseen low mass (.32±0.06M.32 \pm 0.06 M_{\odot}) helium white dwarf (He WD) companion. He WDs are thought to evolve from the remnant helium-rich core of a main-sequence star stripped during the giant phase by a close companion. Low mass He WDs are exotic objects (only about .2%\% of WDs are thought to be less than .3 MM_{\odot}), and are expected to be found in compact binaries. Pre-He WDs are even rarer, and occupy the intermediate phase after the core is stripped, but before the star becomes a fully degenerate WD and with a larger radius (.2R\approx .2 R_{\odot}) than a typical WD. The primary component of EVR-CB-001 (the pre-He WD) was originally thought to be a hot subdwarf (sdB) star from its blue color and under-luminous magnitude, characteristic of sdBs. The mass, temperature (Teff=18,500±500KT_{\rm eff}=18,500 \pm 500 K), and surface gravity (log(g)=4.96±0.04\log(g)=4.96 \pm 0.04) solutions from this work are lower than values for typical hot subdwarfs. The primary is likely to be a post-RGB, pre-He WD contracting into a He WD, and at a stage that places it nearest to sdBs on color-magnitude and TeffT_{\rm eff}-log(g)\log(g) diagrams. EVR-CB-001 is expected to evolve into a fully double degenerate, compact system that should spin down and potentially evolve into a single hot subdwarf star. Single hot subdwarfs are observed, but progenitor systems have been elusive.

Keywords

Cite

@article{arxiv.1909.02012,
  title  = {EVR-CB-001: An evolving, progenitor, white dwarf compact binary discovered with the Evryscope},
  author = {Jeffrey K. Ratzloff and Brad N. Barlow and Thomas Kupfer and Kyle A. Corcoran and Stephan Geier and Evan Bauer and Henry T. Corbett and Ward S. Howard and Amy Glazier and Nicholas M. Law},
  journal= {arXiv preprint arXiv:1909.02012},
  year   = {2019}
}

Comments

14 pages, 11 figures. Published in The Astrophysical Journal

R2 v1 2026-06-23T11:05:48.522Z