The IKKT renormalization group flow is IIB: toward zero-d holography

Abstract

Supergravity solutions describing stacks of Dp-branes with p≠ 3 feature a non-constant dilaton profile, which is holographically mapped to the running of the SYM coupling in (p+1) dimensions. For D-instantons (p=-1), the lack of space and time in the IKKT matrix model makes such an interpretation difficult at first. In this letter, we propose a method to achieve this based on two closely related concepts: the IKKT method of integrating out heavy strings in a Coulomb branch vacuum and the matrix RG flow of Brézin and Zinn-Justin (BZJ). The notable difference between the two is that the BZJ RG flow also integrates over the Coulomb branch position. We first apply the Coulomb branch method and by relating the coefficient of the leading correction to the IKKT action with the string coupling, we can compute its dependence on the Coulomb branch position, finding a match between matrix theory and supergravity. Next, we apply the BZJ-flow to the IKKT partition function, which leads to a running of the coupling constant g with the rank N of the matrix model, reproducing the N-dependence of the axio-dilaton field in supergravity.