Parameters of X-ray binary system Scorpius X-1

Abstract

We modelled optical light curves of Sco~X-1 obtained by the Kepler space telescope during K2 mission. Modelling was performed for the case of the strong heating of the optical star and accretion disc by X-rays. In the considered model the optical star fully filled its Roche lobe. We investigated the inverse problem in wide ranges of values of model parameters and estimated following parameters of Sco X-1: the mass ratio of components q=Mx/Mv=3.6 (3.5-3.8), where Mx and Mv were masses of the neutron and optical stars correspondingly, the orbital inclination was i=30 (25-34). In the brackets uncertainties of parameters q and i were shown, they originated due to uncertainties of characteristics of the physical model of Sco X-1. The temperature of non-heated optical star was T2 = 2500-3050 K, its radius was R2=1.25R=8.7× 1010 cm, and its bolometric luminosity was Lbol=(2.1-4.6)× 1032 erg s-1. The mass of the star was Mv 0.4M. The contribution of the X-ray heated accretion disc dominated in the total optical emission of Sco~X-1. The transition between low and high states occurred due to the increase of X-ray luminosity by a factor 2-3.