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Autori principali: Chung, Shao-Hung, Handayana, I Gusti Ngurah Yudi, Tsao, Yi-Lin, Wu, Chun-Chi, Lin, G. -D., Jen, H. H.
Natura: Preprint
Pubblicazione: 2023
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Accesso online:https://arxiv.org/abs/2311.14562
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author Chung, Shao-Hung
Handayana, I Gusti Ngurah Yudi
Tsao, Yi-Lin
Wu, Chun-Chi
Lin, G. -D.
Jen, H. H.
author_facet Chung, Shao-Hung
Handayana, I Gusti Ngurah Yudi
Tsao, Yi-Lin
Wu, Chun-Chi
Lin, G. -D.
Jen, H. H.
contents A nanophotonic waveguide coupled with an atomic array forms one of the strongly-coupled quantum interfaces to showcase many fascinating collective features of quantum dynamics. In particular for a dissimilar array of two different interparticle spacings with competing photon-mediated dipole-dipole interactions and directionality of couplings, we study the steady-state phases of atomic excitations under a weakly-driven condition of laser field. We identify a partial set of steady-state phases of the driven system composed of combinations of steady-state solutions in a homogeneous array. We also reveal an intricate role of the atom at the interface of the dissimilar array in determining the steady-state phases and find an alteration in the dichotomy of the phases strongly associated with steady-state distributions with crystalline orders. We further investigate in detail the interaction-induced depletion in half of the dissimilar array. This blockaded region results from two contrasting interparticle spacings near the reciprocal coupling regime, which is evidenced from the analytical solutions under the reciprocal coupling. Our results can provide insights in the driven-dissipative quantum phases of atomic excitations with nonreciprocal couplings and pave the avenues toward quantum simulations of exotic many-body states essential for quantum information applications.
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publishDate 2023
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spellingShingle Steady-state phases and interaction-induced depletion in a driven-dissipative chirally-coupled dissimilar atomic array
Chung, Shao-Hung
Handayana, I Gusti Ngurah Yudi
Tsao, Yi-Lin
Wu, Chun-Chi
Lin, G. -D.
Jen, H. H.
Quantum Physics
A nanophotonic waveguide coupled with an atomic array forms one of the strongly-coupled quantum interfaces to showcase many fascinating collective features of quantum dynamics. In particular for a dissimilar array of two different interparticle spacings with competing photon-mediated dipole-dipole interactions and directionality of couplings, we study the steady-state phases of atomic excitations under a weakly-driven condition of laser field. We identify a partial set of steady-state phases of the driven system composed of combinations of steady-state solutions in a homogeneous array. We also reveal an intricate role of the atom at the interface of the dissimilar array in determining the steady-state phases and find an alteration in the dichotomy of the phases strongly associated with steady-state distributions with crystalline orders. We further investigate in detail the interaction-induced depletion in half of the dissimilar array. This blockaded region results from two contrasting interparticle spacings near the reciprocal coupling regime, which is evidenced from the analytical solutions under the reciprocal coupling. Our results can provide insights in the driven-dissipative quantum phases of atomic excitations with nonreciprocal couplings and pave the avenues toward quantum simulations of exotic many-body states essential for quantum information applications.
title Steady-state phases and interaction-induced depletion in a driven-dissipative chirally-coupled dissimilar atomic array
topic Quantum Physics
url https://arxiv.org/abs/2311.14562