Curvature Matrix Models for Dynamical Triangulations and the Itzykson-DiFrancesco Formula
ArXiv hep-th/9609237 (1996)
Abstract:
We study the large-N limit of a class of matrix models for dually weighted triangulated random surfaces using character expansion techniques. We show that for various choices of the weights of vertices of the dynamical triangulation the model can be solved by resumming the Itzykson-Di Francesco formula over congruence classes of Young tableau weights modulo three. From this we show that the large-N limit implies a non-trivial correspondence with models of random surfaces weighted with only even coordination number vertices. We examine the critical behaviour and evaluation of observables and discuss their interrelationships in all models. We obtain explicit solutions of the model for simple choices of vertex weightings and use them to show how the matrix model reproduces features of the random surface sum. We also discuss some general properties of the large-N character expansion approach as well as potential physical applications of our results.Curvature Matrix Models for Dynamical Triangulations and the Itzykson-DiFrancesco Formula
(1996)
A simple model of dimensional collapse
ArXiv hep-th/9608021 (1996)
Abstract:
We consider a simple model of d families of scalar field interacting with geometry in two dimensions. The geometry is locally flat and has only global degrees of freedom. When d<0 the universe is locally two dimensional but for d>0 it collapses to a one dimensional manifold. The model has some, but not all, of the characteristics believed to be features of the full theory of conformal matter interacting with quantum gravity which has local geometric degrees of freedom.Avalanche size distribution in a random walk model
ArXiv cond-mat/9607087 (1996)