Black Holes in the Presence of Cosmological Constant and Large N Brane World

TL;DR

This paper derives analytic black hole solutions with minimal Hawking temperature in theories with cosmological constant, explores their higher-dimensional generalizations, and constructs D3-brane configurations in AdS space relevant to Randall-Sundrum models.

Contribution

It provides new analytic solutions for black holes with cosmological constant and embeds D3-branes in AdS space, connecting black hole physics with brane-world scenarios.

Findings

Analytic black hole solutions with minimal Hawking temperature.

Existence and asymptotic behavior of black holes in higher dimensions.

Construction of D3-branes in AdS space for Randall-Sundrum models.

Abstract

Analytic form has been obtained for four-dimensional black holes with a minimal Hawking temperature in a theory with cosmological constant, dilaton and gauge fields. In general dimensions, black hole solutions are shown to exist and their asymptotic behaviors are obtained. In theories of ten dimension, N coincident D3-branes as the boundary of an $AdS_5$ space are constructed by embedding black D3-branes, with a five-dimensional compactified space of negligible size if N is large, which provide natural realizations of the Randall-Sundrum scenario. For this $AdS_{5}$ background, the cosmological constant is a higher order perturbation and its effect on the spectra of standard model fields on the branes can be calculated.