Universal criticality of thermodynamic geometry for boundary conformal field theories in gauge/gravity duality

Abstract

According to more recent AdS/CFT interpretation Karch:2015rpa, in which varying cosmological constant in the bulk corresponds to varying the curvature radius governing the space on which the field theory resides, we study the criticality of thermodynamic curvatures for thermal boundary conformal field theories (CFT) that are dual to d-dimensional charged anti-de Sitter (AdS) black holes, embedded in D-dimensional M-theory/superstring inspired models having AdSd× Sd+k spacetime with D=2d+k. Analogous with criticality features acquired for charged AdS black holes in the bulk HosseiniMansoori:2020jrx, the normalized intrinsic curvature RN and extrinsic curvature KN of the boundary CFT has critical exponents 2 and 1, respectively. In this respect, the universal amplitude of RNt2 is 12 and KNt is -12 when t→0-, whereas RNt2≈ 18 and KNt≈14 in the limit t→0+ in which t=T/Tc-1 is the temperature parameter with the critical temperature, Tc. Interestingly, these critical amplitudes are independent of the number of thermal CFT dimensions and are remarkably similar to one given for higher dimensional charged AdS black holes in the bulk.