Thermodynamical stability of f(R)-AdS black holes in grand canonical ensemble

Abstract

In this paper, n-dimensional (n=4p, p is a positive integer) f(R)-AdS black holes is divided into Schwazschild-AdS (SAdS) like ones and Reissner-Nordstr\"om-AdS (RN-AdS) like ones. Thermodynamical stability of them in grand canonical ensemble is investigated. Locally, we find that the RN-AdS like f(R) black holes will experience either type-one or type-two phase transitions from unstable states to stable states, whereas there are only type-two phase transitions between that two states for SAdS like f(R) black holes. Globally, we find that there are type-one Hawking-Page like phase transitions between thermal AdS state and f(R) black holes. Using thermodynamical geometry method, we find that thermodynamical extrinsic curvature can only provide accurate stability information near type-two (not type-one) phase transition points for f(R) black holes in grand canonical ensemble.