On self-gravitating elementary solutions of non-linear electrodynamics

J. Diaz-Alonso; D. Rubiera-Garcia

arXiv:1001.2836·hep-th·January 19, 2010

On self-gravitating elementary solutions of non-linear electrodynamics

J. Diaz-Alonso, D. Rubiera-Garcia

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TL;DR

This paper classifies electrostatic, spherically symmetric solutions in non-linear electrodynamics coupled with gravity, analyzing their mass and energy characteristics to understand their properties.

Contribution

It provides a comprehensive classification of solutions in non-linear electrodynamics coupled to gravity, focusing on their mass and energy features.

Findings

01

Classification of solutions based on ADM mass and electromagnetic energy

02

Analysis of properties of solutions in non-linear electrodynamics with gravity

03

Insights into the structure of elementary solutions in these models

Abstract

The electrostatic, spherically symmetric solutions of the general class of non-linear abelian gauge models, minimally coupled to gravity, are classified and discussed in terms of the ADM mass and the electromagnetic energy of the associated flat-space solutions.

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Taxonomy

TopicsCosmology and Gravitation Theories · High-pressure geophysics and materials · Black Holes and Theoretical Physics