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Numerical Study of Disordered Noninteracting Chains Coupled to a Local Lindblad Bath

by Viktor Berger, Andrea Nava, Jens Hjorleifur Bardarson, Claudia Artiaco

Submission summary

Authors (as registered SciPost users):

Claudia Artiaco · Jens H Bardarson · Andrea Nava

Abstract

Disorder can prevent many-body quantum systems from reaching thermal equilibrium, leading to a many-body localized phase. Recent works suggest that nonperturbative effects caused by rare regions of low disorder may destabilize the localized phase. However, numerical simulations of interacting systems are generically possible only for small system sizes, where finite-size effects might dominate. Here we perform a numerical investigation of noninteracting disordered spin chains coupled to a local Lindblad bath at the boundary. Our results reveal strong finite-size effects in the Lindbladian gap in both bath-coupled Anderson and Aubry-Andr\'e-Harper models, leading to a non-monotonic behavior with the system size. We discuss the relaxation properties of a simple toy model coupled to local Lindblad baths, connecting its features to those of noninteracting localized chains. We comment on the implications of our findings for many-body systems.