On the Truncation Error of Numerical Renormalization Group

Abstract

Using the recently developed exact numerical renormalization group (NRG) method, we analyse the NRG truncation errors δ of the local magnetic susceptibility and δ F of the free energy for the spin-boson model (SBM). We find that for temperatures higher than a crossover temperature Tcr, as the number of kept states M increases, both errors have oscillations with quasi period M/Nb and the envelopes decrease as εtr=-M/Nb (Nb is the number of boson states used for each bath site). For T Tcr, they decrease slower than the power law. We extract that Tcr = T εtr, with T being the crossover energy scale between the declocalized and the critical fixed points of SBM. The same rule applies to δ and δ F calculated from the full density matrix NRG method and is expected to hold for general impurity models, allowing accurate removal of NRG truncation errors in static quantities at high temperatures.