Kerr Spinning Particle, Strings, and Superparticle Models

Alexander Burinskii (Gravity Research Group; IBRAE; Russian Academy of; Sciences)

arXiv:hep-th/9704102·hep-th·October 30, 2009

Kerr Spinning Particle, Strings, and Superparticle Models

Alexander Burinskii (Gravity Research Group, IBRAE, Russian Academy of, Sciences)

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TL;DR

This paper develops a combined model of Kerr spinning particles and superparticles, introducing a supergeneralization of Kerr geometry via a complex supersource, leading to supergravity black hole solutions with broken supersymmetry.

Contribution

It presents a novel supergeneralization of Kerr geometry using a complex supersource, connecting spinning particles with supergravity black holes.

Findings

01

Derived supergravity black hole metrics with broken supersymmetry

02

Extended Kerr geometry to include supersymmetric sources

03

Demonstrated supershift effects on Kerr and Kerr-Sen solutions

Abstract

A combined model of the Kerr spinning particle and superparticle is considered. The structure of the Kerr geometry is presented in a complex form as being created by a complex source. A natural supergeneralization of this construction is obtained corresponding to a complex "supersource". Peforming a supershift to the Kerr and Kerr-Sen solutions we obtain metrics of supergravity black holes with a nonlinear realization of broken supersymmetry.

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