On an algebraic approach to higher dimensional statistical mechanics

Abstract

We study representations of Temperley-Lieb algebras associated with the transfer matrix formulation of statistical mechanics on arbitrary lattices. We first discuss a new hyperfinite algebra, the Diagram algebra Dn(Q), which is a quotient of the Temperley-Lieb algebra appropriate for Potts models in the mean field case, and in which the algebras appropriate for all transverse lattice shapes G appear as subalgebras. We give the complete structure of this subalgebra in the case An (Potts model on a cylinder). The study of the Full Temperley Lieb algebra of graph G reveals a vast number of infinite sets of inequivalent irreducible representations characterized by one or more (complex) parameters associated to topological effects such as links. We give a complete classification in the An case where the only such effects are loops and twists.

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