Litcius/Paper detail

Many-body localization in waveguide quantum electrodynamics

N. Fayard, L. Henriet, A. Asenjo-Garcia, D. E. Chang

2021Physical Review Research60 citationsDOIOpen Access PDF

Abstract

At the quantum many-body level, atom-light interfaces generally remain challenging to solve for or understand in a nonperturbative fashion. Here we consider a waveguide quantum electrodynamics model, where two-level atoms interact with and via propagating photons in a one-dimensional waveguide, and specifically investigate the interplay of atomic position disorder, multiple scattering of light, quantum nonlinear interactions, and dissipation. We develop qualitative arguments and present numerical evidence that such a system exhibits a many-body localized (MBL) phase, provided that atoms are less than half excited. Interestingly, while MBL is originally formulated with respect to closed systems, this system is intrinsically open. However, as dissipation originates from transport of energy to the system boundaries and the subsequent radiative loss, the lack of transport in the MBL phase makes the waveguide QED system look essentially closed and makes applicable the notions of MBL. Conversely, we show that if the system is initially in a delocalized phase due to a large excitation density, then rapid initial dissipation can leave the system unable to efficiently transport energy at later times, resulting in a dynamical transition to an MBL phase. These phenomena can be feasibly realized in state-of-the-art experimental setups.

Topics & Concepts

PhysicsDissipationWaveguidePhotonQuantumQuantum mechanicsDelocalized electronCavity quantum electrodynamicsScatteringQuantum systemPosition (finance)Quantum electrodynamicsExcitationOpen quantum systemQuantum dissipationNonlinear systemRadiative transferQuantum phase transitionPhase (matter)Quantum opticsQuantum dynamicsQuantum processDissipative systemClassical mechanicsSpontaneous emissionCoherence (philosophical gambling strategy)Quantum entanglementEnergy (signal processing)Phase transitionClosed system (control theory)Quantum technologyQuantum decoherenceScattering theoryEnergy transportPhase conjugationQuantum Information and CryptographyMechanical and Optical ResonatorsCold Atom Physics and Bose-Einstein Condensates