Matrix models from black hole geometries

Abstract

Supersymmetric, magnetically charged (and possibly accelerating) black holes in AdS4 that uplift on Sasaki-Einstein manifolds Y7 to M-theory have a dual matrix model description. The matrix model in turn arises by localization of the 3d N=2 SCFTs, dual to the AdS4 vacuum, on the black hole horizon geometry, which is a Riemann surface g (or a spindle ). We identify the imaginary part t of the continuously distributed eigenvalues in the matrix model, and their density function (t), with natural geometric quantities associated with the M-theory circle action U(1)M on the near-horizon geometry AdS2× Y9, the internal space Y9 being a Y7 fibration over g (or ). Moreover, we argue that the points where '(t) is discontinuous match with the classical action of BPS probe M2-branes wrapping AdS2 and the M-theory circle. We illustrate our findings with the ABJM and ADHM theories, whose duals have Y7 = S7/Zk, and some of their flavoured variants corresponding to other toric Y7.

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