English

A Not-So-Compact Companion: Massive, Oversize White Dwarf in a Post-Common Envelope Eclipsing Binary

Solar and Stellar Astrophysics 2026-01-23 v2

Abstract

We provide a detailed characterization of 2M07515777+1807352, a post-common envelope eclipsing binary system with a 10.3 d, nearly, but not quite, circular orbit (e = 0.02). This system consists of a massive white dwarf (WD) (1.081.08 M_{\odot}) and a 4400 K main-sequence companion (0.66 M_{\odot}). This WD is among the most massive known within post-common envelope binary systems. We also find, through both spectral energy distribution and TESS\it{TESS} light curve analyses, that the WD has a radius of 1.54±0.07R1.54\pm 0.07 R_{\oplus}, roughly 12σ12\sigma larger than the expected value from WD mass-radius relationships. Both the Lomb-Scargle analysis and the vsiniv \sin{i} of the system indicate the main-sequence companion to be super-synchronously rotating at a period of \sim6 days, which may suggest accretion occurred during the evolution of the system. This binary also shares similar physical characteristics with six other post-common envelope systems hosting massive WDs, which may point to a shared formation pathway. We model the history of this system with COSMIC and find that it likely formed through an episode of common envelope evolution following the onset of mass transfer when the progenitor primary was on either the early or the thermally pulsing stages of the asymptotic giant branch. As a result of its properties, the study of 2M07515777+1807352 can provide new insights regarding many key outstanding questions in our understanding of common envelope evolution.

Keywords

Cite

@article{arxiv.2601.14378,
  title  = {A Not-So-Compact Companion: Massive, Oversize White Dwarf in a Post-Common Envelope Eclipsing Binary},
  author = {Erin M. Motherway and Evan Linck and Robert D. Mathieu and Don Dixon and Keivan G. Stassun and Katelyn Breivik and Steven R. Majewski and Onno Pols},
  journal= {arXiv preprint arXiv:2601.14378},
  year   = {2026}
}

Comments

Accepted to AJ

R2 v1 2026-07-01T09:13:05.788Z