Physics Letters B (Jun 2024)

Thermodynamic phase transition rate for the third-order Lovelock black hole in diverse dimensions

  • Yu-Shan Wang,
  • Zhen-Ming Xu,
  • Bin Wu

Journal volume & issue
Vol. 853
p. 138690

Abstract

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The phase transition has always been a major focus in the study of black hole thermodynamics. This study employs the Kramer escape rate from stochastic processes to investigate the first-order phase transition strength between the large and small black hole states. The results indicate that the phase transition of the third-order Lovelock black holes exhibits significant asymmetric characteristics in diverse dimensions both in the hyperbolic and spherical topology, with an overall trend of the transition from large black holes to small black holes. Especially for the spherical topology, when the dimension is higher than seven, there exists a certain temperature beyond which a dynamic equilibrium is established for the phase transition. This study provides valuable insights into the first-order phase transition rate of black holes and enriches the understanding of black hole phase transitions.