Supergravity and a Bogomol'nyi Bound in Three Dimensions

Jose D. Edelstein; Carlos Núñez; Fidel A. Schaposnik

Supergravity and a Bogomol'nyi Bound in Three Dimensions

Jose D. Edelstein, Carlos Núñez, Fidel A. Schaposnik

Abstract

We discuss the $2+1$ dimensional Abelian Higgs model coupled to $N=2$ supergravity. We construct the supercharge algebra and, from it, we show that the mass of classical static solutions is bounded from below by the topological charge. As it happens in the global case, half of the supersymmetry is broken when the bound is attained and Bogomol'nyi equations, resulting from the unbroken supersymmetry, hold. These equations, which correspond to gravitating vortices, include a first order self-duality equation whose integrability condition reproduces the Einstein equation.

Supergravity and a Bogomol'nyi Bound in Three Dimensions

Abstract

We discuss the

dimensional Abelian Higgs model coupled to

supergravity. We construct the supercharge algebra and, from it, we show that the mass of classical static solutions is bounded from below by the topological charge. As it happens in the global case, half of the supersymmetry is broken when the bound is attained and Bogomol'nyi equations, resulting from the unbroken supersymmetry, hold. These equations, which correspond to gravitating vortices, include a first order self-duality equation whose integrability condition reproduces the Einstein equation.

Supergravity and a Bogomol'nyi Bound in Three Dimensions

Abstract

Supergravity and a Bogomol'nyi Bound in Three Dimensions

Abstract

Paper Structure

Table of Contents