Holographic Tests of the μ Ensemble

Abstract

We study in detail a recent proposal stating that M-theory observables arising from the quantisation of M2-branes are naturally computed in a fixed A3 ensemble. In a holographic setting this implies that in a semiclassical approximation 11d bulk observables in an asymptotically AdS4 background are computed in a grand canonical ensemble of fixed chemical potential μ conjugate to the integer N determining the rank of the gauge group in the dual CFT. We provide detailed precision tests of holography in the fixed μ ensemble by focusing on the two leading terms in the derivative expansion of the 11d theory. In addition, we study one-loop logarithmic corrections which we compute in detail. For asymptotically AdS4× S7/Zk 11d backgrounds our results are in agreement with supersymmetric localisation calculations in the dual ABJM SCFT. Moreover, we employ the logarithmic corrections in the μ ensemble to determine the measure of the integral Laplace transform and use this to compute dual SCFT supersymmetric partition functions, like the superconformal index and the squashed S3 partition function, to all orders in the perturbative 1/N expansion in terms of Airy functions in harmony with results and conjectures in the dual SCFT.

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