Non-Gaussian Noise in the In-Plane Transport of Lightly Doped La2-xSrxCuO4: Evidence for a Collective State of Charge Clusters

Abstract

A study of the in-plane resistance noise on a high quality single crystal of La1.97Sr0.03CuO4 deep inside the spin-glass phase reveals the onset of non-Gaussianity and the insensitivity of the noise to the in-plane magnetic field. The results indicate that the charge dynamics becomes increasingly slow and correlated as temperature T -> 0. The analysis of the higher order noise statistics provides evidence for the existence of a collective ground state of charge clusters, which seem to coexist with charge-poor antiferromagnetic domains that are frozen at such low T.