Astronomy and Astrophysics – Astrophysics
Scientific paper
2003-06-26
Astrophys.J.596:421-429,2003
Astronomy and Astrophysics
Astrophysics
11 pages, 5 figures, accepted for publication in ApJ
Scientific paper
10.1086/377576
To understand the bursting behavior of the microquasar GRS 1915+105, we calculate time evolution of a luminous, optically thick accretion disk around a stellar mass black hole undergoing limit-cycle oscillations between the high- and low- luminosity states. We, especially, carefully solve the behavior of the innermost part of the disk, since it produces significant number of photons during the burst, and fit the theoretical spectra with the multi-color disk model. The fitting parameters are $\Tin$ (the maximum disk temperature) and $\Rin$ (the innermost radius of the disk). We find an abrupt, transient increase in $\Tin$ and a temporary decrease in $\Rin$ during a burst, which are actually observed in GRS 1915+105. The precise behavior is subject to the viscosity prescription. We prescribe the radial-azimuthal component of viscosity stress tensor to be $T_{r \phi}=-\alpha \Pi (p_{\rm gas}/p)^{\mu}$, with $\Pi$ being the height integrated pressure, $\alpha$ and $\mu$ being the parameter, and $p$ and $p_{\rm gas}$ being the total pressure and gas pressure on the equatorial plane, respectively. Model with $\mu=0.1$ can produce the overall time changes of $\Tin$ and $\Rin$, but cannot give an excellent fit to the observed amplitudes. Model with $\mu=0.2$, on the other hand, gives the right amplitudes, but the changes of $\Tin$ and $\Rin$ are smaller. Although precise matching is left as future work, we may conclude that the basic properties of the bursts of GRS 1915+105 can be explained by our ``limit-cycle oscillation'' model. It is then required that the spectral hardening factor at high luminosities should be about 3 at around the Eddington luminosity instead of less than 2 as is usually assumed.
Mineshige Shin
Watarai Ken-ya
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