Decay of density waves in coupled one-dimensional many-body-localized systems

Abstract

The behavior of coupled disordered one-dimensional systems, as modelled by identical fermionic Hubbard chains with the on-site potential disorder and coupling emerging through the inter-chain hopping t', is analysed. The study is motivated by the experiment on fermionic cold atoms on a disordered lattice, where a decay rate of the quenched density wave was measured. We present a derivation of the decay rate within perturbation theory and show that even at large disorder along the chains the interaction leads to finite > 0, the mechanism being the interaction-induced coupling of in-chain localized and inter-chain extended single-fermion states. Explicit expressions for are presented for a weak interaction U < t,t', but extended also to the regime t > U >t'. It is shown that in both regimes increases with the inter-chain hopping t', as well as decreases with increasing disorder.