Large violation of Wiedemann Franz law in Luttinger liquids

Abstract

We show that in weakly disordered Luttinger liquids close to a commensurate filling the ratio of thermal conductivity kappa and electrical conductivity sigma can deviate strongly from the Wiedemann Franz (WF) law valid for Fermi liquids scattering from impurities. In the regime where the Umklapp scattering rate GammaU is much larger than the impurity scattering rate Gammaimp, the Lorenz number L = (kappa/sigma T) rapidly changes from very large values, L ~ (GammaU/Gammaimp) >> 1 at the commensurate point to very small values, L ~ (Gammaimp/GammaU) << 1 for a slightly doped system. This surprising behavior is a consequence of approximate symmetries existing even in the presence of strong Umklapp scattering.