Joule-Thomson expansion of d-dimensional charged AdS black holes with cloud of strings and quintessence

TL;DR

This paper investigates the thermodynamic behavior of d-dimensional charged AdS black holes with cloud of strings and quintessence during Joule-Thomson expansion, revealing dimension-dependent effects on key thermodynamic quantities.

Contribution

It provides a detailed analysis of Joule-Thomson expansion in complex black hole systems with additional matter fields, highlighting the influence of dimensionality, strings, and quintessence.

Findings

Different dimensions affect Joule-Thomson coefficient and inversion curves.

Strings and quintessence parameters influence thermodynamic properties.

The ratio T_i^{min}/T_c varies with dimensionality and matter parameters.

Abstract

Herein, we focus on the study of Joule-Thomson expansion corresponding to a d-dimensional charged AdS black hole with cloud of strings and quintessence. Then its relevant solution and some thermodynamic properties are investigated. Specifically, we evaluate its Joule-Thomson expansion from four important aspects, including the Joule-Thomson coefficient, inversion curve, isenthalpic curve, and ratio $\frac{T_{i}^{min}}{T_{c}}$. After analysis, different dimensions with strings of cloud and quintessence parameters have different effects on the Joule-Thomson coefficient (the same situation are found for the inversion curve, isenthalpic curve, and ratio $\frac{T_{i}^{min}}{T_{c}}$).