Gravitational Quasinormal Modes of Regular Phantom Black Hole

Advances in High Energy Physics Published: 2017

The Hawking temperature as a function of 𝑏 in asymptotically flat and dS spacetimes.

Writers: Li, J; Lin, K; Wen, H; Qian, WL

Keywords: DARK ENERGY; STRING THEORY; PERTURBATIONS; EQUATIONS; FIELD

Abstract: We investigate the gravitational quasinormal modes (QNMs) for a type of regular black hole (BH) known as phantom BH, which is a static self-gravitating solution of a minimally coupled phantom scalar field with a potential. The studies are carried out for three different spacetimes: asymptotically flat, de Sitter (dS), and anti-de Sitter (AdS). In order to consider the standard odd parity and even parity of gravitational perturbations, the corresponding master equations are derived. The QNMs are discussed by evaluating the temporal evolution of the perturbation field which, in turn, provides direct information on the stability of BH spacetime. It is found that in asymptotically flat, dS, and AdS spacetimes the gravitational perturbations have similar characteristics for both odd and even parities. The decay rate of perturbation is strongly dependent on the scale parameter.., which measures the coupling strength between phantom scalar field and the gravity. Furthermore, through the analysis of Hawking radiation, it is shown that the thermodynamics of such regular phantom BH is also influenced by b. The obtained results might shed some light on the quantum interpretation of QNM perturbation.

SEE PDF: Gravitational Quasinormal Modes of Regular Phantom Black Hole

DOI: 10.1155/2017/5234214

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