Dissipation in the 1/D expansion for planar matrix models

Abstract

We consider the thermal behavior of a large number of matrix degrees of freedom in the planar limit. We work in 0+1 dimensions, with D matrices, and use 1/D as an expansion parameter. This can be thought of as a non-commutative large-D vector model, with two independent quartic couplings for the two different orderings of the matrices. We compute a thermal two-point correlator to O(1/D) and find that the degeneracy present at large D is lifted, with energy levels split by an amount 1/D. This implies a timescale for thermal dissipation D. At high temperatures dissipation is predominantly due to one of the two quartic couplings.