Litcius/Paper detail

Zeno Regime of Collective Emission: Non-Markovianity beyond Retardation

Yu-Xiang Zhang

2023Physical Review Letters15 citationsDOI

Abstract

To build up a collective emission, the atoms in an ensemble must coordinate their behavior by exchanging virtual photons. We study this non-Markovian process in a subwavelength atom chain coupled to a one-dimensional (1D) waveguide and find that retardation is not the only cause of non-Markovianity. The other factor is the memory of the photonic environment, for which a single excited atom needs a finite time, the Zeno regime, to transition from quadratic decay to exponential decay. In the waveguide setup, this crossover has a time scale longer than the retardation, thus impacting the development of collective behavior. By comparing a full quantum treatment with an approach incorporating only the retardation effect, we find that the field memory effect, characterized by the population of atomic excitation, is much more pronounced in collective emissions than that in the decay of a single atom. Our results maybe useful for the dissipation engineering of quantum information processings based on compact atom arrays.

Topics & Concepts

Quantum Zeno effectPhysicsExcited stateAtom (system on chip)PhotonDissipationQuantumQuantum tunnellingVirtual particleExcitationExponential decayCrossoverSpontaneous emissionQuantum mechanicsStatistical physicsAtomic physicsQuantum decoherenceComputer scienceLaserEmbedded systemArtificial intelligenceQuantum Information and CryptographyQuantum Mechanics and ApplicationsCold Atom Physics and Bose-Einstein Condensates
Zeno Regime of Collective Emission: Non-Markovianity beyond Retardation | Litcius