Many-body localization in XY spin chains with long-range interactions: An exact diagonalization study

Abstract

We investigate the transition from the many-body localized phase to the ergodic thermalized phase at an infinite temperature in an XY spin chain with L spins, which experiences power-law decaying interactions in the form of Vij1/|i-j|α (i,j=1,·s,L) and a random transverse field. By performing large-scale exact diagonalization for the chain size up to L=18, we systematically analyze the energy gap statistics, half-chain entanglement entropy, and uncertainty of the entanglement entropy of the system at different interaction exponents α. The finite-size critical scaling allows us to determine the critical disorder strength Wc and critical exponent at the many-body localization phase transition, as a function of the interaction exponent α in the limit L→∞. We find that both Wc and diverge when α decreases to a critical power αc1.160.17, indicating the absence of many-body localization for α<αc. Our result is useful to resolve the contradiction on the critical power found in two previous studies, αc=3/2 from scaling argument in Phys. Rev. B 92, 104428 (2015) and αc≈1 from quantum dynamics simulation in Phys. Rev. A 99, 033610 (2019).