Fermionic and bosonic greybody factors as well as quasinormal modes for charged Taub NUT black holes

The paper studies the spinorial wave equations, namely the Dirac and the Klein-Gordon equations, as well as the greybody radia-tions and quasinormal modes (QNMs) of the charged Taub NUT black hole (CTNBH). To obtain fermionic greybody factors (GFs) and QNMs, we study the charged fermions by employing the Dirac equation. To this end, we use a null tetrad in the Newman- Penrose formalism. Then, we separate the Dirac equation into radial and angular sets. Using the obtained radial equations, we convert them into the typical one dimensional Schrodinger-like wave equations with the aid of tortoise coordinate and derive the effective potentials. For bosonic GFs and QNMs, we study the Klein-Gordon equation in the CTNBH geometry and obtain the radial equation. We then derive the effective potential and investigate the effect of NUT parameter on it. We show that while the fermionic QNMs and GFs individually increase with the increasing NUT parameter, the increase of bosonic GFs with increasing NUT parameter is overwhelmingly greater than that of the bosonic QNMs.(c) 2023 Elsevier Inc. All rights reserved.

Automated summary

This paper studies the spinorial wave equations, namely the Dirac and the Klein-Gordon equations, as well as the greybody radia-tions and quasinormal modes of the charged Taub NUT black hole. By using the Dirac equation, we obtain the fermionic greybody factors and quasinormal modes. For the bosonic greybody factors and quasinormal modes, we study the Klein-Gordon equation in the CTNBH geometry and derive the radial equation. We then investigate the effect of the NUT parameter on the effective potential.