Entanglement across extended random defects in the XX spin chain

Abstract

We study the half-chain entanglement entropy in the ground state of the spin-1/2 XX chain across an extended random defect, where the strength of disorder decays with the distance from the interface algebraically as l l-. In the whole regime 0, the average entanglement entropy is found to increase logarithmically with the system size L as SLc eff()6 L+const, where the effective central charge c eff() depends on . In the regime <1/2, where the extended defect is a relevant perturbation, the strong-disorder renormalization group method gives c eff()=(1-2)2, while, in the regime 1/2, where the extended defect is irrelevant in the bulk, numerical results indicate a non-zero effective central charge, which increases with . The variation of c eff() is thus found to be non-monotonic and discontinuous at =1/2.