Physics – High Energy Physics – High Energy Physics - Theory
Scientific paper
2000-02-17
Nucl.Phys. B583 (2000) 739-757
Physics
High Energy Physics
High Energy Physics - Theory
LaTeX, 24 pages; Intro extended, 3 Refs added and typos corrected, to appear in NPB
Scientific paper
10.1016/S0550-3213(00)00325-4
A random matrix model with a sigma-model like constraint, the restricted trace ensemble (RTE), is solved in the large-n limit. In the macroscopic limit the smooth connected two-point resolvent G(z,w) is found to be non-universal, extending previous results from monomial to arbitrary polynomial potentials. Using loop equation techniques we give a closed though non-universal expression for G(z,w), which extends recursively to all higher k-point resolvents. These findings are in contrast to the usual unconstrained one-matrix model. However, in the microscopic large-n limit, which probes only correlations at distance of the mean level spacing, we are able to show that the constraint does not modify the universal sine-law. In the case of monomial potentials $V(M)=M^{2p}$, we provide a relation valid for finite-n between the k-point correlation function of the RTE and the unconstrained model. In the microscopic large-n limit they coincide which proves the microscopic universality of RTEs.
Akemann Gernot
Vernizzi Graziano
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