Modular covariant torus partition functions of dense A1(1) and dilute A2(2) loop models

Abstract

Yang-Baxter integrable dense A1(1) and dilute A2(2) loop models are considered on the torus in their simplest physical regimes. A combination of boundary conditions (h,v) is applied in the horizontal and vertical directions with h,v=0 and 1 for periodic and antiperiodic boundary conditions respectively. The fugacities of non-contractible and contractible loops are denoted by α and β respectively where β is simply related to the crossing parameter λ. At roots of unity, when λ/π∈ Q, these models are the dense LM(p,p') and dilute DLM(p,p') logarithmic minimal models with p,p' coprime integers. We conjecture the scaling limits of the transfer matrix traces in the standard modules with d defects and deduce the conformal partition functions Zdense(h,v)(α) and Zdilute(h,v)(α) using Markov traces. These are expressed in terms of functions Zm,m'(g) known from the Coulomb gas arguments of Di Francesco, Saleur and Zuber and subsequently as sesquilinear forms in Verma characters. Crucially, we find that the partition functions are identical for the dense and dilute models. The coincidence of these conformal partition functions provides compelling evidence that, for given (p,p'), these dense and dilute theories lie in the same universality class. In root of unity cases with α=2, the (h,v) modular covariant partition functions are also expressed as sesquilinear forms in affine u(1) characters involving generalized Bezout conjugates. These also give the modular covariant partition functions for the 6-vertex and Izergin-Korepin 19-vertex models in the corresponding regimes.