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Paper detail

Numerical study of superradiant instability for charged stringy black hole-mirror system

We numerically study the superradiant instability of charged massless scalar field in the background of charged stringy black hole with mirror-like boundary condition. We compare the numerical result with the previous analytical result and show the dependencies of this instability upon various parameters of black hole charge $Q$, scalar field charge $q$, and mirror radius $r_m$. Especially, we have observed that imaginary part of BQN frequencies grows with the scalar field charge $q$ rapidly.

preprint2014arXivOpen access
Ran LiJunkun Zhao
gr-qchep-th
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Ran LiJunkun Zhao

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