Breaking of universal nature of central charge criticality in AdS black holes in Gauss-Bonnet Gravity

Abstract

In this paper, we have studied the thermodynamics of Gauss-Bonnet black holes in D-dimensional AdS spacetime. Here, the cosmological constant (), Newton's gravitational constant (G) and the Gauss-Bonnet parameter (α) are varied in the bulk, and a mixed first law is rewritten considering central charge (C) (of dual boundary conformal theory) and its conjugate variable utilising the gauge-gravity duality. A novel universal nature of central charge near the critical point of black hole phase transition in Einstein's gravity has been observed in mann1. We observe that this universal nature breaks when such phase transition is considered for black holes in the Gauss-Bonnet gravity. Apart from this, treating the Gauss-Bonnet parameter as a thermodynamic variable as suggested in kastori in light of the consistency between first law and the Smarr relation leads to modified thermodynamic volume (conjugate to variable cosmological constant), adding to a new understanding of the Van der Waals gas like behaviour of the black holes in higher dimensional and higher curvature gravity theories. Our analysis considers a general D dimensional background. We have then imposed a greater focus in the analysis of the phase structure of the five dimensional Gauss-Bonnet spacetime. Our analysis also shows that the general universal nature of the critical value of the central charge (which was present in four dimensional AdS spacetime), breaks down in case of five dimensional AdS spacetime even in the absence of Gauss-Bonnet gravity. This finding indicates the universal nature of the central charge may be a special feature of the four dimensional AdS spacetime only.

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