BPS black holes in N=2 five dimensional AdS supergravity

K. Behrndt; A.H. Chamseddine; W.A. Sabra

arXiv:hep-th/9807187·hep-th·October 31, 2009

BPS black holes in N=2 five dimensional AdS supergravity

K. Behrndt, A.H. Chamseddine, W.A. Sabra

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TL;DR

This paper derives BPS black hole solutions in five-dimensional gauged supergravity with AdS asymptotics, revealing their unique horizon properties and analyzing their effects on Wilson loop calculations.

Contribution

It presents new BPS black hole solutions in five-dimensional gauged supergravity and explores their impact on Wilson loop computations.

Findings

01

Black holes lack regular horizons in these solutions.

02

Solutions influence Wilson loop calculations.

03

Black holes are extremal and static in AdS_5.

Abstract

BPS black hole solutions of U(1) gauged five-dimensional supergravity are obtained by solving the Killing spinor equations. These extremal static black holes live in an asymptotic AdS_5 space time. Unlike black holes in asymptotic flat space time none of them possess a regular horizon. We also calculate the influence, of a particular class of these solutions, on the Wilson loops calculation.

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