English

Exploring the Eclipsing Binary System IY Aur: First Photometric Insights

Solar and Stellar Astrophysics 2025-06-12 v1

Abstract

Eclipsing binary systems play a vital role in astrophysics, as they provide a direct means of measuring fundamental stellar parameters. By combining high-precision space-based observations with ground-based multicolor photometric data, these parameters can be determined with greater accuracy. In this study, we present the first photometric analysis of the IY Aur eclipsing binary system, using a combination of the Transiting Exoplanet Survey Satellite (TESS) light curve and new UBVRI CCD observations obtained with the 60 cm robotic telescope (T60) at the TUBITAK National Observatory. Through detailed photometric modeling, the masses and radii of the system's primary and secondary components were determined as M1=6.51±0.81MM_{1}=6.51\pm 0.81\,M_{\odot}, M2=5.39±0.87MM_{2}=5.39\pm 0.87\,M_{\odot}, and R1=4.15±0.20RR_{1}=4.15\pm 0.20\,R_{\odot}, R2=6.88±0.33RR_{2}=6.88\pm 0.33\,R_{\odot}, respectively. The logarithmic values of luminosity and surface gravity were calculated as logL1=3.14±0.20L\log L_{1}=3.14\pm 0.20\,L_{\odot} and logg1=4.01±0.02\log g_{1}=4.01\pm 0.02 cgs for the primary component, and logL2=2.50±0.22L\log L_{2}=2.50 \pm 0.22\,L_{\odot} and logg2=3.49±0.03\log g_{2}=3.49\pm 0.03 cgs for the secondary component. Furthermore, the distance to IY Aur was estimated as d=1690±237d=1690\pm237 pc.

Keywords

Cite

@article{arxiv.2506.09158,
  title  = {Exploring the Eclipsing Binary System IY Aur: First Photometric Insights},
  author = {N. Alan and M. Alpsoy and Y. Kilic},
  journal= {arXiv preprint arXiv:2506.09158},
  year   = {2025}
}

Comments

11 pages, 5 figures and 3 tables, accepted for publication in Physics and Astronomy Reports