Fundamental Parameters of a Binary System Consisting of a Red Dwarf and a Compact Star

Abstract

TIC 157365951 has been classified as a δ Scuti type by the International Variable Star Index (VSX). Through the spectra from Large Sky Area Multi-Object Fiber Spectroscopic Telescope (LAMOST) and its light curve, we further discovered that it is a binary system. This binary system comprises a red dwarf star and a compact star. Through the spectral energy distribution (SED) fitting, we determined the mass of the red dwarf star as M1 = 0.31 0.01 M and its radius as R1 = 0.414 0.004 R. By fitting the double-peaked H α emission, we derived the mass ratio of q = 1.76 0.04 , indicating a compact star mass of M2 = 0.54 0.01 M. Using Phoebe to model the light curve and radial velocity curve for the detached binary system, we obtained a red dwarf star mass of M1 = 0.29 0.02 M, a radius of R1 = 0.39 0.04 R, and a Roche-lobe filling factor of f = 0.9950.129, which is close to the f=1 expected for a semi-detached system. The Phoebe model gives a compact star mass M2 = 0.53 0.05 M. Constraining the system to be semidetached gives M1 = 0.34 0.02 M, R1 = 0.41 0.01 R, and M2 = 0.62 0.03 M. The consistency of the models is encouraging. The value of the Roche-lobe filling factor suggests that there might be ongoing mass transfer. The compact star mass is as massive as a typical white dwarf.

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