Quantization of Higher Dimensional Linear Dilaton Black Hole Area/Entropy From Quasinormal Modes

TL;DR

This paper investigates the quantum spectra of area and entropy for higher dimensional linear dilaton black holes using quasinormal modes, revealing equidistant spectra independent of spacetime dimension.

Contribution

It demonstrates that higher dimensional linear dilaton black holes have equidistant area and entropy spectra derived from quasinormal modes, regardless of spacetime dimension.

Findings

Area and entropy spectra are equidistant.

Spectra are independent of spacetime dimension.

Quasinormal modes reveal spectral properties under specific conditions.

Abstract

The quantum spectra of area and entropy of higher dimensional linear dilaton black holes in various theories via the quasinormal modes method are studied. It is shown that quasinormal modes of these black holes can reveal themselves when a specific condition holds. Finally, we obtain that a higher dimensional linear dilaton black hole has equidistant area and entropy spectra, and both of them are independent on the spacetime dimension.