Litcius/Paper detail

Chirality-driven delocalization in disordered waveguide-coupled quantum arrays

Gleb Fedorovich, Danil Kornovan, Alexander N. Poddubny, Mihail Petrov

2022Physical review. A/Physical review, A17 citationsDOIOpen Access PDF

Abstract

We study theoretically the competition between directional asymmetric coupling and disorder in a one-dimensional array of quantum emitters chirally coupled through a waveguide mode. Our calculation reveals a highly nontrivial phase diagram for the eigenstates' spatial profile, nonmonotonously depending on the disorder and directionality strength. The increase of the coupling asymmetry drives the transition from Anderson localization in the bulk through delocalized states to chirality-induced localization at the array edge. Counterintuitively, this transition is not smeared by strong disorder but becomes sharper instead. Our findings could be important for the rapidly developing field of waveguide quantum electrodynamics, where chiral interactions and disorder play crucial roles.

Topics & Concepts

Delocalized electronChirality (physics)PhysicsAsymmetryWaveguideCondensed matter physicsQuantumCoupling (piping)Anderson localizationPhase diagramQuantum mechanicsPhase (matter)Chiral anomalyMaterials scienceQuantum chromodynamicsMetallurgyNambu–Jona-Lasinio modelQuantum and electron transport phenomenaQuantum Information and CryptographyQuantum optics and atomic interactions