Quantum dynamics of disordered spin chains with power-law interactions

A. Safavi-Naini; M. L. Wall; O. L. Acevedo; A. M. Rey; and R.M.; Nandkishore

arXiv:1806.03339·cond-mat.dis-nn·March 19, 2019

Quantum dynamics of disordered spin chains with power-law interactions

A. Safavi-Naini, M. L. Wall, O. L. Acevedo, A. M. Rey, and R.M., Nandkishore

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Abstract

We use extensive numerical simulations based on matrix product state methods to study the quantum dynamics of spin chains with strong on-site disorder and power-law decaying ( $1/ r^{α}$ ) interactions. We focus on two spin- $1/2$ Hamiltonians featuring power-law interactions: Heisenberg and XY and characterize their corresponding long-time dynamics using three distinct diagnostics: decay of a staggered magnetization pattern $I (t)$ , growth of entanglement entropy $S (t)$ , and growth of quantum Fisher information $F_{Q} (t) .$ For sufficiently rapidly decaying interactions $α > α_{c}$ we find a many-body localized phase, in which $I (t)$ saturates to a non-zero value, entanglement entropy grows as $S (t) \propto t^{1/ α}$ , and Fisher information grows logarithmically. Importantly, entanglement entropy and Fisher information do not scale the same way (unlike short range interacting…

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