English

Finite-Lens Effect on Self-Lensing in detached White Dwarfs-Main Sequence Binary Systems

Solar and Stellar Astrophysics 2024-10-08 v1

Abstract

In an edge-on and detached binary system, including a white dwarf (WD) and a main-sequence star (WDMS), when the source star is passing behind the compact companion its light is bent and magnified. Meanwhile, some part of its images' area is obscured by the WD's disk. These two effects occur simultaneously, and the observer receives the stellar light magnified and partially obscured due to the finite-lens size. We study these effects in different WDMS binary systems numerically using inverse-ray-shooting (IRS) and analytically using approximate relations close to reality. For WDMS systems with long orbital periods 300\gtrsim 300 days and MWD0.2M\sunM_{\rm{WD}}\gtrsim 0.2 M_{\sun} (MWDM_{\rm{WD}} is the mass of WD), lensing effects dominate the occultations due to finite-lens effects, and for massive WDs with masses higher than solar mass no occultation happens. The occultations dominate self-lensing signals in systems with low-mass WDs(MWD0.2M\sunM_{\rm WD}\lesssim 0.2 M_{\sun}) in close orbits with short orbital periods T50T\lesssim 50 days. The occultation and self-lensing cancel each other out when the WD's radius equals 2\sqrt{2} times the Einstein radius, regardless of the source radius, which offers a decreasing relation between the orbital periods and WDs' mass. We evaluate the errors in maximum deviations in self-lensing/occultation normalized flux which are made by using its known analytical relation and conclude that these errors could be up to 0.002, 0.08, 0.030.002,~0.08,~0.03 when the orbital period is T=30, 100, 300T=30,~100,~300 days, respectively. The size of stellar companions in WDMSs has a twofold manner as it decreases the depth of self-lensing/occultation signals but enlarges their width.

Keywords

Cite

@article{arxiv.2410.04550,
  title  = {Finite-Lens Effect on Self-Lensing in detached White Dwarfs-Main Sequence Binary Systems},
  author = {Sedighe Sajadian and Hossein Fatheddin},
  journal= {arXiv preprint arXiv:2410.04550},
  year   = {2024}
}

Comments

13 pages, 7 figures

R2 v1 2026-06-28T19:10:24.976Z