Spin chains as modules over the affine Temperley-Lieb algebra

Abstract

The affine Temperley-Lieb algebra a-1.8ptTLN(β) is an infinite-dimensional algebra parametrized by a number β ∈ C and an integer N∈ N. It naturally acts on (C2) N to produce a family of representations labeled by an additional parameter z∈ C×. The structure of these representations, which were first introduced by Pasquier and Saleur in their study of spin chains, is here made explicit. They share their composition factors with the cellular a-1.8ptTLN(β)-modules of Graham and Lehrer, but differ from the latter representations by the direction of about half of the arrows of their Loewy diagrams. The proof of this statement uses a morphism introduced by Morin-Duchesne and Saint-Aubin as well as new maps that intertwine various a-1.8ptTLN(β)-actions on the XXZ chain and generalize applications studied by Deguchi et al and after by Morin-Duchesne and Saint-Aubin.

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