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van der Waals criticality in AdS black holes: A phenomenological study

Krishnakanta BhattacharyaDepartment of Physics, Indian Institute of Technology Guwahati, Guwahati 781039, Assam, IndiaBibhas Ranjan MajhiDepartment of Physics, Indian Institute of Technology Guwahati, Guwahati 781039, Assam, IndiaSaurav Samanta
2017en
ABI

Аннотация

Anti-de Sitter black holes exhibit van der Waals-type phase transition. In the extended phase-space formalism, the critical exponents for any spacetime metric are identical to the standard ones. Motivated by this fact, we give a general expression for the Helmholtz free energy near the critical point, which correctly reproduces these exponents. The idea is similar to the Landau model, which gives a phenomenological description of the usual second-order phase transition. Here, two main inputs are taken into account for the analysis: (a) black holes should have van der Waals-like isotherms, and (b) free energy can be expressed solely as a function of thermodynamic volume and horizon temperature. Resulting analysis shows that the form of Helmholtz free energy correctly encapsulates the features of the Landau function. We also discuss the isolated critical point accompanied by nonstandard values of critical exponents. The whole formalism is then extended to two other criticalities, namely, $Y\ensuremath{-}X$ and $T\ensuremath{-}S$ (based on the standard; i.e., nonextended phase space), where $X$ and $Y$ are generalized force and displacement, whereas $T$ and $S$ are the horizon temperature and entropy. We observe that in the former case Gibbs free energy plays the role of Landau function, whereas in the later case, that role is played by the internal energy (here, it is the black hole mass). Our analysis shows that, although the existence of a van der Waals phase transition depends on the explicit form of the black hole metric, the values of the critical exponents are universal in nature.

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