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Hot accretion flow with radiative cooling: state transitions in black hole X-ray binaries

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arxiv 1604.02283 v1 pith:PRUYWC4Y submitted 2016-04-08 astro-ph.HE

Hot accretion flow with radiative cooling: state transitions in black hole X-ray binaries

classification astro-ph.HE
keywords accretionstatebinariesblackholetransitionsx-rayclumpy
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We investigate state transitions in black hole X-ray binaries through different parameters by using two-dimensional axisymmetric hydrodynamical simulation method. For radiative cooling in hot accretion flow, we take into account the bremsstrahlung, synchrotron and synchrotron-self Comptonization self-consistently in the dynamics. Our main result is that the state transitions occur when the accretion rate reaches a critical value $\dot M \sim 3\alpha\ \dot M_{\rm Edd}$, above which cold and dense clumpy/filamentary structures are formed, embedded within the hot gas. We argued this mode likely corresponds to the proposed two-phase accretion model, which may be responsible for the intermediate state of black hole X-ray binaries. When the accretion rate becomes sufficiently high, the clumpy/filamentary structures gradually merge and settle down onto the mid-plane. Eventually the accretion geometry transforms to a disc-corona configuration. In summary our results are consistent with the truncated accretion scenario for the state transition.

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