Spherical Branes and the BMN Matrix Quantum Mechanics

Abstract

We study the maximally supersymmetric Yang-Mills theory on Sd using supersymmetric localisation and holography. We argue that the analytic continuation in dimension to d=1 yields a Euclidean version of the BMN matrix quantum mechanics. This system can be analysed at large N using supersymmetric localisation and leads to explicit results for the free energy on Sd and the expectation value of supersymmetric Wilson loops. We show how these results can be reproduced at strong gauge coupling using holography by employing spherical D-brane solutions. We construct these solutions for any value of d using an effective supergravity description and pay particular attention to the subtleties arising in the d1 limit. Our results have implications for the BMN matrix quantum mechanics and the physics of circular D0-branes.

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