Joule-Thomson expansion for noncommutative uncharged black holes

J. P. Morais Gra\c{c}a; Eduardo Folco Capossoli; and Henrique; Boschi-Filho

arXiv:2107.05781·hep-th·November 3, 2021

Joule-Thomson expansion for noncommutative uncharged black holes

J. P. Morais Gra\c{c}a, Eduardo Folco Capossoli, and Henrique, Boschi-Filho

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TL;DR

This paper investigates the Joule-Thomson expansion in noncommutative uncharged black holes, revealing behaviors similar to charged black holes and analyzing inversion temperatures and isenthalpic processes.

Contribution

It introduces the study of Joule-Thomson expansion for noncommutative uncharged black holes, highlighting their thermodynamic behavior and inversion characteristics.

Findings

01

Noncommutative uncharged black holes mimic charged black hole thermodynamics.

02

Inversion temperatures depend on the noncommutative parameter .

03

Isenthalpic processes are analyzed for fixed black hole masses.

Abstract

In this work we study the Joule-Thomson expansion for uncharged black holes in a noncommutative scenario characterized by a parameter $θ$ , which is present in the horizon function. We calculate the inversion temperature for some values of $θ$ and the isenthalpics for fixed masses. We find that the uncharged noncommutative black hole behaves as a charged commutative one.

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