Weyl corrections to diffusion and chaos in holography

Abstract

Using holographic methods in the Einstein-Maxwell-dilaton-axion (EMDA) theory, it was conjectured that the thermal diffusion in a strongly coupled metal without quasi-particles saturates an universal lower bound that is associated with the chaotic property of the system at infrared (IR) fixed points~blake:1705. In this paper, we investigate the thermal transport and quantum chaos in the EMDA theory with a small Weyl coupling term. It is found that the Weyl coupling correct the thermal diffusion constant DQ and butterfly velocity vB in different ways, hence resulting a modified relation between the two at IR fixed points. Unlike that in the EMDA case, our results show that the ratio DQ/ (vB2τL) always contains a non-universal Weyl correction which depends on the matter fields as long as the U(1) current is relevant in the IR.