Many-Body Delocalization in Strongly Disordered System with Long-Range Interactions: Finite Size Scaling

Abstract

The localization in a disordered system of N interacting spins coupled by the long-range anisotropic interaction 1/Rα is investigated using a finite size scaling in a d=1 -dimensional system for N=8, 10, 12, 14. The results supports the absence of localization in the infinite system at α<2d and a scaling of a critical energy disordering Wc N2d-α in agreement with the analytical theory suggesting the energy delocalization in the subset of interacting resonant pairs of spins as a precursor of the many-body delocalization.The spin relaxation rate k dependence on disordering k W-2 has been revealed in the practically interesting case α=d. This relaxation mechanism can be responsible for the anomalous relaxation of quantum two level systems in amorphous solids.