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𝒩 = 8 superconformal gauge theories and M 2 branes

2009; Springer Nature; Volume: 2009; Issue: 01 Linguagem: Inglês

10.1088/1126-6708/2009/01/078

1127-2236

Sergio Benvenuti, Diego Rodrı́guez-Gómez, Erik Tonni, Herman Verlinde,

Noncommutative and Quantum Gravity Theories

Based on recent developments, in this letter we find 2+1 dimensional gauge theories with scale invariance and N=8 supersymmetry. The gauge theories are defined by a Lagrangian and are based on an infinite set of 3-algebras, constructed as an extension of ordinary Lie algebras. Recent no-go theorems on the existence of 3-algebras are circumvented by relaxing the assumption that the invariant metric is positive definite. The gauge group is non compact, and its maximally compact subgroup can be chosen to be any ordinary Lie group, under which the matter fields are adjoints or singlets. The theories are parity invariant and do not admit any tunable coupling constant. In the case of SU(N) the moduli space of vacua contains a branch of the form (R^8)^N/S_N. These properties are expected for the field theory living on a stack of M2 branes.