Nonlinearity effect on Joule–Thomson expansion of Einstein–Power–Yang–Mills AdS black hole
Yun-Zhi Du, Xiaoyang Liu, Yang Zhang, Li Zhao, Qiang Gu
Abstract
Abstract Considering the nonlinearity of the Yang Mills charge, we investigate the Joule–Thomson expansion for the Einstein–Power–Yang–Mills AdS black holes in the context of the gauge-gravity duality. Under this framework, we calculate the Joule–Thomson coefficient, describe all relevant inversion and isenthalpic curves in the temperature-pressure plane that determining in this manner the corresponding cooling and heating regions. Finally we analyze the effect of the charge nonlinearity on the Joule–Thomson expansion.
Topics & Concepts
Joule–Thomson effectEinsteinPhysicsNonlinear systemPower (physics)Mathematical physicsJoule heatingQuantum electrodynamicsThermodynamicsQuantum mechanicsBlack Holes and Theoretical PhysicsCosmology and Gravitation TheoriesNoncommutative and Quantum Gravity Theories