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Joule-Thomson expansion of charged dilatonic black holes*

Mengyao Zhang, Guizhou University, Guiyang, 550025, CHINAHao Chen, Zunyi Normal University, Zunyi, 563006, CHINAH. Hassanabadi, Physics Department, Shahrood University of Technology, Shahrood, Iran, Shahrood, 53001, Iran (the Islamic Republic of)Zheng‐Wen Long, Guizhou University, Guiyang, 550025, CHINAHui Yang, Guizhou University, Guiyang, 550025, CHINA
2022en
ABI

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Abstract Based on the Einstein-Maxwell theory, the Joule-Thomson (J-T) expansion of charged dilatonic black holes (the solutions are neither flat nor AdS) in -dimensional spacetime is studied herein. To this end, we analyze the effects of the dimension n and dilaton field α on J-T expansion. An explicit expression for the J-T coefficient is derived, and consequently, a negative heat capacity is found to lead to a cooling process. In contrast to its effect on the dimension, the inversion curve decreases with charge Q at low pressures, whereas the opposite effect is observed at high pressures. We can observe that with an increase in the dimension n or parameter α , both the pressure cut-off point and the minimum inversion temperature change. Moreover, we analyze the ratio numerically and discover that the ratio is independent of charge; however, it depends on the dilaton field and dimension: for and , the ratio is 1/2. The dilaton field is found to enhance the ratio. In addition, we identify the cooling-heating regions by investigating the inversion and isenthalpic curves, and the behavior of the minimum inversion mass indicates that this cooling-heating transition may not occur under certain special conditions.

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