Emerging ergodic behavior within many-body localized states

Abstract

We report in this paper our numerical analysis of energy level spacing statistics for the one-dimensional spin-1/2 XXZ model in random on-site longitudinal magnetic fields Bi (-h≤ Bi≤ h)). We concentrate on the strong disorder limit J<<Jz,h) where Jz and J are the (nearest neighbor) spin interaction strength in z- and planar (xy)- directions, respectively. The system is expected to be in a many-body localized (MBL) state in this parameter regime. By analyzing the energy-level spacing statistics as a function of strength of random magnetic field h, energy of the many-body state E, the number of spin- particles in the system M=Σi(siz+12) and the spin interaction strengths Jz and J, we show that there exists a small parameter region Jz h where ergodic behaviour emerges at the middle of the many-body energy spectrum when MN2 (N= length of spin chain). The emerging ergodic phase shows qualitatively different behaviour compared with the usual ergodic phase that exists in the weak-disorder limit.