Inner Disc Obscuration in GRS 1915+105 Based on Relativistic Slim Disc Model

Abstract

We study the observational signatures of the relativistic slim disc of 10 Msun black hole, in a wide range of mass accretion rate, mdot, dimensionless spin parameter, aast, and viewing angle, i. In general, the innermost temperature, Tin increases with the increase of i for a fixed value of mdot and aast, due to the Doppler effect. However, for i > 50 and mdot > mdotturn, Tin starts to decrease with the increase of mdot. This is a result of self-obscuration -- the radiation from the innermost hot part of the disc is blocked by the surrounding cooler part. The value of mdotturn and the corresponding luminosities depend on aast and i. Such obscuration effects cause an interesting behavior on the disc luminosity (Ldisc) -- Tin plane for high inclinations. In addition to the standard-disc branch which appears below mdotturn and which obeys Ldisc propto Tin4 -relation, another branch above mdotturn, which is nearly horizontal, may be observed at luminosities close to the Eddington luminosity. We show that these features are likely observed in a Galactic X-ray source, GRS 1915+105. We support a high spin parameter (aast > 0.9) for GRS 1915+105 since otherwise the high value of Tin and small size of the emitting region (rin < 1rS) cannot be explained.