English

Quantum jumps in driven-dissipative disordered many-body systems

Quantum Physics 2024-05-08 v2 Disordered Systems and Neural Networks Statistical Mechanics

Abstract

We discuss how quantum jumps affect localized regimes in driven-dissipative disordered many-body systems featuring a localization transition. We introduce a deformation of the Lindblad master equation that interpolates between the standard Lindblad and the no-jump non-Hermitian dynamics of open quantum systems. As a platform, we use a disordered chain of hard-core bosons with nearest-neighbor interactions and subject to incoherent drive and dissipation at alternate sites. We probe both the statistics of complex eigenvalues of the deformed Liouvillian and dynamical observables of physical relevance. We show that reducing the number of quantum jumps, achievable through realistic postselection protocols, can promote the emergence of the localized phase. Our findings are based on exact diagonalization and time-dependent matrix-product states techniques.

Keywords

Cite

@article{arxiv.2312.17311,
  title  = {Quantum jumps in driven-dissipative disordered many-body systems},
  author = {Sparsh Gupta and Hari Kumar Yadalam and Manas Kulkarni and Camille Aron},
  journal= {arXiv preprint arXiv:2312.17311},
  year   = {2024}
}

Comments

$4+\epsilon$ pages and Supplementary Material. v2: minor revision (published version)

R2 v1 2026-06-28T14:04:08.843Z