Physics – High Energy Physics – High Energy Physics - Theory
Scientific paper
1996-05-21
Int.J.Mod.Phys. A12 (1997) 2135-2292
Physics
High Energy Physics
High Energy Physics - Theory
139 pages Latex (99 pages in landscape, two-column option); Section on Supersymmetric Matrix Models expanded, additional refer
Scientific paper
10.1142/S0217751X97001328
We review a class of matrix models whose degrees of freedom are matrices with anticommuting elements. We discuss the properties of the adjoint fermion one-, two- and gauge invariant D-dimensional matrix models at large-N and compare them with their bosonic counterparts which are the more familiar Hermitian matrix models. We derive and solve the complete sets of loop equations for the correlators of these models and use these equations to examine critical behaviour. The topological large-N expansions are also constructed and their relation to other aspects of modern string theory such as integrable hierarchies is discussed. We use these connections to discuss the applications of these matrix models to string theory and induced gauge theories. We argue that as such the fermionic matrix models may provide a novel generalization of the discretized random surface representation of quantum gravity in which the genus sum alternates and the sums over genera for correlators have better convergence properties than their Hermitian counterparts. We discuss the use of adjoint fermions instead of adjoint scalars to study induced gauge theories. We also discuss two classes of dimensionally reduced models, a fermionic vector model and a supersymmetric matrix model, and discuss their applications to the branched polymer phase of string theories in target space dimensions D>1 and also to the meander problem.
Semenoff Gordon W.
Szabo Richard J.
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