Nearly Static Magnetized Kerr Black-hole in Non-linear Electrodynamics
Abstract
We have analyzed the thermodynamics of slowly rotating magnetized Kerr black-hole, with typical spin parameter a 0.1 (nearly static) in the background of non-linear electrodynamics. In particular we have studied the Bekenstein-Hawking entropy, Hawking temperature, angular momentum, specific heats and identified regions of parameters for possible phase-transitions. It turns out that once the stability lost the black-hole never come back to its original stable position.
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