Higher dimensional slowly rotating dilaton black holes in AdS spacetime

TL;DR

This paper derives higher-dimensional charged slowly rotating dilaton black hole solutions in AdS spacetime, analyzing how the dilaton field influences their properties like angular momentum and gyromagnetic ratio.

Contribution

It presents new solutions for higher-dimensional dilaton black holes in AdS space with detailed analysis of their physical properties.

Findings

Dilaton field modifies the gyromagnetic ratio.

Solutions are valid for arbitrary dilaton coupling constants.

Angular momentum is explicitly calculated for these black holes.

Abstract

In this paper, with an appropriate combination of three Liouville-type dilaton potentials, we obtain the higher dimensional charged slowly rotating dilaton black hole solution for asymptotically anti-de Sitter spacetime. The angular momentum and the gyromagnetic ratio of such a black hole are determined for the arbitrary values of the dilaton coupling constant. It is shown that the dilaton field modifies the gyromagnetic ratio of the rotating dilaton black holes.