English

Reconstructing post-common envelope white dwarf+main sequence binary histories through inverse population synthesis techniques

Solar and Stellar Astrophysics 2025-06-11 v1

Abstract

The evolution of binary stellar systems involves a wide range of physical processes, many of which are not yet well understood. We aim to build a general-purpose algorithm based on inverse population synthesis techniques, able to reconstruct the past history of binary systems. This algorithm will be applied to a sample of eclipsing binaries, aiming to ascertain their progenitors and past histories. Once validated, it was applied to a sample 30 white dwarf plus main-sequence eclipsing binaries observed by the Zwicky Transient Facility survey. We determined the input space parameters of the progenitors for the 30 eclipsing binary systems to which the algorithm was applied. These parameters included the initial primary and secondary masses, the orbital separation and eccentricity, the common-envelope efficiency (αCE\alpha_{\rm CE}), and the age at which the system was formed. Furthermore, the analysis of the global properties revealed some important features: a mild anticorrelation between the common-envelope efficiency parameter and the secondary mass, the absence of a universal value of αCE\alpha_{\rm CE} along with no need for internal energy, although in the low-mass regime, the high values of αCE\alpha_{\rm CE} suggest a possible contribution, and an initial thermalized eccentricity distribution. Although a strong degeneracy among the input parameters exists in the reconstruction of post-common envelope binary systems, the high accuracy obtained for the eclipsing-binary systems analyzed here has allowed our algorithm to make a reasonable determination of the initial parameters without the need to include external constraints. The global properties found here so far, can be substantially improved when analyzing a future volume-complete sample.

Keywords

Cite

@article{arxiv.2505.01505,
  title  = {Reconstructing post-common envelope white dwarf+main sequence binary histories through inverse population synthesis techniques},
  author = {Santiago Torres and Marta Gili and Alberto Rebassa-Mansergas and Alejandro Santos-García and Alex J. Brown and Steven G. Parsons},
  journal= {arXiv preprint arXiv:2505.01505},
  year   = {2025}
}

Comments

16 pages, 9 figures, 5 tables; accepted for publication in A&A

R2 v1 2026-06-28T23:19:37.733Z