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Two approaches to quantum gravity and M-(atrix) theory at large number of dimensions

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arxiv 2007.04488 v1 pith:E5YRJQXO submitted 2020-07-09 hep-th

Two approaches to quantum gravity and M-(atrix) theory at large number of dimensions

classification hep-th
keywords phasevaluesactionatrixblackconfigurationdistributionfuzzy
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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A Gaussian approximation to the bosonic part of M-(atrix) theory with mass deformation is considered at large values of the dimension $d$. From the perspective of the gauge/gravity duality this action reproduces with great accuracy the stringy Hagedorn phase transition from a confinement (black string) phase to a deconfinement (black hole) phase whereas from the perspective of the matrix/geometry approach this action only captures a remnant of the geometric Yang-Mills-to-fuzzy-sphere phase where the fuzzy sphere solution is only manifested as a three-cut configuration termed the "baby fuzzy sphere" configuration. The Yang-Mills phase retains most of its characteristics with two exceptions: i) the uniform distribution inside a solid ball suffers a crossover at very small values of the gauge coupling constant to a Wigner's semi-circle law, and ii) the uniform distribution at small values of the temperatures is non-existent.

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  1. Gram--Wishart--Stiefel formulation of the $N=2$, large--$d$ gauge theory in 1D

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    Gram/Wishart/Stiefel reformulation of N=2 large-d BFSS/BMN endpoints absorbs -A into a shifted mass and recovers the universal continuum -2d DΛ-channel after non-polynomial transverse completion.