Long-range entanglement near a Kondo-destruction quantum critical point

Abstract

The numerical renormalization group is used to study quantum entanglement in the Kondo impurity model with a pseudogapped density of states ()||r (r>0) that vanishes at the Fermi energy =0. The model features a Kondo-destruction quantum critical point (QCP) separating a partially screened phase (reached for impurity-band exchange couplings J>Jc) from a local-moment phase (J<Jc). The impurity contribution Seimp to the entanglement entropy between a region of radius R around the magnetic impurity and the rest of the host system reveals a characteristic length scale R* that distinguishes a regime R R* of maximal critical entanglement from one R R* of weaker entanglement. Within each phase, Seimp is a universal function of R/R* with a power-law decay for R/R* 1. The entanglement length scale R* diverges on approach to the QCP with a critical exponent that depends only on r.