Energy distribution of 2+1 dimensional black holes with nonlinear electrodynamics

TL;DR

This paper calculates energy distributions of 2+1 dimensional black holes with nonlinear electrodynamics using Einstein and Moller prescriptions, incorporating quantum electrodynamics corrections.

Contribution

It introduces a novel analysis of energy distributions in 2+1 black holes with nonlinear electrodynamics, including quantum corrections, and compares different energy-momentum prescriptions.

Findings

Energy distributions are obtained for 2+1 black holes with nonlinear electrodynamics.

A relation between Einstein and Moller energy-momentum prescriptions is established.

Quantum electrodynamics corrections are incorporated into the black hole energy analysis.

Abstract

The energy distributions for a black hole solution resulting from coupling electrodynamics and gravity in 2+1 dimensions are obtained. This solution considers the correction for a 2+1 static charged black hole from the first contribution of the weak field limit of one loop QED in 2+1 dimensions. The Einstein and Moller energy-momentum prescriptions are used to evaluate the energy distributions associated with the mentioned 2+1 dimensional black hole and other 2+1 black hole solutions coupled with nonlinear electrodynamics. A relation that connects the coefficients of both prescriptions is established.