Ballistic-to-diffusive transition in spin chains with broken integrability
Abstract
We study the ballistic-to-diffusive transition induced by the weak breaking of integrability in a boundary-driven XXZ spin-chain. Studying the evolution of the spin current density as a function of the system size , we show that, accounting for boundary effects, the transition has a non-trivial universal behavior close to the XX limit. It is controlled by the scattering length , where is the strength of the integrability breaking term. In the XXZ model, the interplay of interactions controls the emergence of a transient "quasi-ballistic" regime at length scales much shorter than . This parametrically large regime is characterized by a strong renormalization of the current which forbids a universal scaling, unlike the XX model. Our results are based on Matrix Product Operator numerical simulations and agree with perturbative analytical calculations.
Cite
@article{arxiv.2006.13891,
title = {Ballistic-to-diffusive transition in spin chains with broken integrability},
author = {João S. Ferreira and Michele Filippone},
journal= {arXiv preprint arXiv:2006.13891},
year = {2020}
}
Comments
13 pages, 9 figures