Maximally supersymmetric Yang--Mills in three dimensions
Abstract
We present the latest results from our ongoing lattice field theory investigations of maximally supersymmetric Yang--Mills theory in three space-time dimensions, focusing on its non-perturbative phase diagram. Exploiting a lattice formulation that preserves a subset of the supersymmetry algebra at non-zero lattice spacing, we study the 'spatial deconfinement' phase transition that holography relates to the transition between localized and homogeneous black branes in the dual quantum gravity. Fixing NL2 × 8 lattice volumes and N=8 colors in the SU(N) gauge group, we consider four aspect ratios α = NL / NT ≤ 4 corresponding to NL = 16, 20, 24 and 32. The transition temperatures we determine are in good agreement with the low-temperature, large-N holographic expectation Tc α3.
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