Quantum corrections for the Reisner-Nordstrom black hole
Maja Buric, Voja Radovanovic
TL;DR
This paper computes quantum corrections to the geometry and thermodynamics of the Reisner-Nordstrom black hole using a 2D dilaton gravity model, revealing a regular extreme black hole state.
Contribution
It introduces a method to calculate quantum corrections for charged black holes and analyzes the extreme case with regular horizon behavior.
Findings
Quantum corrections modify geometric and thermodynamic properties.
Extreme black hole state exhibits regular horizon behavior.
Provides insights into quantum effects in charged black hole models.
Abstract
We calculate the quantum corrections of geometric and thermodynamic quantities for the Reisner-Nordstrom charged black hole, within the context of 2D spherically symmetric dilaton gravity model. Special attention is payed to the quantum corrections of the extreme Reisner-Nordstrom solution. We find a state of the extreme black hole with regular behaviour on the horizon.
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