Lifshitz critical points meet Zamolodchikov perturbation theory

Abstract

Critical points of classical and quantum lattice models are often described by scale-invariant Lifshitz theories which are anisotropic in the continuum limit, as characterized by a dynamical critical exponent z≠1. This type of critical behavior can in principle be studied by deforming ordinary z=1 conformal field theories (CFTs) by relevant vector operators breaking the rotational/Lorentz symmetry. In this short note, we consider a two-dimensional system of coupled minimal model CFTs Mm,m+1 which realizes this perspective in a controlled fashion via Zamolodchikov's large m expansion. The model turns out to exhibit interesting properties, including a manifold of interacting Lifshitz fixed points and emergent rotational symmetry in the infrared.