Joule-Thomson expansion of higher dimensional nonlinearly charged AdS black hole in Einstein-PMI gravity

Abstract

In this paper, the Joule-Thomson expansion of the higher dimensional nonlinearly AdS black hole with power Maxwell invariant source is investigated. The results show the Joule-Thomson coefficient has a zero point and a divergent point, which are coincide with the inversion temperature Ti and the zero point of Hawking temperature, respectively. The inversion temperature increases monotonously with inversion pressure. For high-pressure region, the inversion temperature decreases with the dimensionality D and the nonlinearity parameter s, whereas it increases with the charge Q. However, Ti for low-pressure region increase with D and s, while it decreases with Q. The ratio η BH between the minimum of inversion temperature and the critical temperature does not depend on Q, it recovers the higher dimensional Reissner-N\"ordstrom AdS black hole case when s=1. However, for s>1, it becomes smaller and smaller as D increase and approaches a constant when D→∞. Finally, we found that increase of mass M and s, or reduce the charge Q and D can enhance the isenthalpic curve, and the effect of s on the isenthalpic curve is much greater than other parameters.