Evolutionary Increase of the orbital Separation and Change of the Roche Lobe Size in SS433

Abstract

We present results of long-term photometric monitoring of SS433 which proves a secular evolutionary increase of the orbital period of SS433 at a rate of (1.14 0.25)× 10-7 s~s-1. Using a physical model of non-conservative mass transfer in SS433 through a supercritical accretion disc around the compact companion, we reliably confirm that the binary mass ratio in SS433, q=Mx/Mv is 0.8. For an optical star mass Mv 10 M the compact object in SS433 is a black hole with mass MBH 8 M. We discuss evolutionary implications of the found orbital period increase in SS433 -- a secular change in the orbital separation and a size of the Roche lobe of the optical star. We show that for the mass-loss rate dMv/dt 10-4-3× 10-5 M per year and an optical star mass Mv 10-15 M the found orbital period increase implies the corresponding orbital separation increase while the Roche lobe size can shrink or expand around a mean constant value depending on the optical star mass-loss rate which may be modulated with the precessional period.