Tachyonic instability of Reissner-Nordström-Melvin black holes in Einstein-Maxwell-scalar theory

In the framework of Einstein-Maxwell-scalar theory, we studied scalar field perturbations of Reissner-Nordström-Melvin (RNM) black holes, which describes the RN black holes immersed in a uniform magnetic field. Due to the coupling to the Maxwell term, the scalar field acquires an effective mass squa...

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Bibliographic Details
Published in:Nuclear physics. B 2023-02, Vol.987, p.116110, Article 116110
Main Authors: Xu, Hengyu, Zhang, Shao-Jun
Format: Article
Language:English
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Summary:In the framework of Einstein-Maxwell-scalar theory, we studied scalar field perturbations of Reissner-Nordström-Melvin (RNM) black holes, which describes the RN black holes immersed in a uniform magnetic field. Due to the coupling to the Maxwell term, the scalar field acquires an effective mass square which, in the presence of the magnetic field, will become negative somewhere outside the horizon for either sign of the coupling constant α, thus triggering the tachyonic instability and leading to spontaneous scalarization when α is large enough. The magnetic field has significant influences on the waveforms and the onset of the instability, which differs for different sign of α. Effects of the black hole charge on the instability are also studied.
ISSN:0550-3213
1873-1562
DOI:10.1016/j.nuclphysb.2023.116110