TL;DR
This paper explores non-supersymmetric Kaluza-Klein black holes in string theory, highlighting their properties, charge configurations, and microscopic descriptions as D-brane bound states, connecting classical and quantum perspectives.
Contribution
It provides a detailed analysis of non-supersymmetric Kaluza-Klein black holes and their interpretation as D-brane bound states within string theory, extending understanding beyond supersymmetric cases.
Findings
Black holes with electric and magnetic charges share features with supersymmetric black holes.
The microscopic D-brane description reproduces the nonlinear mass formula.
Angular momentum conservation influences black hole properties.
Abstract
Non-supersymmetric black holes carrying both electric and magnetic charge with respect to a single Kaluza-Klein gauge field have much in common with supersymmetric black holes. Angular momentum conservation and other general physics principles underlies some of their basic features. Kaluza-Klein black holes are interpreted in string theory as bound states of D6-branes and D0-branes. The microscopic theory reproduces the full nonlinear mass formula of the extremal black holes.
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