Response of entanglement to annealed vis-\`a-vis quenched disorder in quantum spin models

TL;DR

This paper compares how annealed and quenched disorder affect bipartite entanglement in quantum XY spin models, revealing significant differences and identifying conditions for disorder-induced entanglement enhancement and shifts in quantum phase transitions.

Contribution

It provides a comparative analysis of annealed versus quenched disorder effects on entanglement in quantum XY models, highlighting the drastic differences and conditions for order-from-disorder phenomena.

Findings

Annealed and quenched disorders lead to drastically different entanglement behaviors.

Disorder can induce entanglement enhancement in certain parameter regions.

Disorder influences the quantum phase transition points in the system.

Abstract

We investigate bipartite entanglement in random quantum $XY$ models at equilibrium. Depending on the intrinsic time scales associated with equilibration of the random parameters and measurements associated with observation of the system, we consider two distinct kinds of disorder, namely annealed and quenched disorders. We conduct a comparative study of the effects of disorder on nearest-neighbor entanglement, when the nature of randomness changes from being annealed to quenched. We find that entanglement properties of the annealed and quenched disordered systems are drastically different from each other. This is realized by identifying the regions of parameter space in which the nearest-neighbor state is entangled, and the regions where a disorder-induced enhancement of entanglement $-$ order-from-disorder $-$ is obtained. We also analyze the response of the quantum phase transition point of the ordered system with the infusion of disorder.