Fast and High Excitation Transport in Waveguide Quantum Electrodynamics

• URL: http://arxiv.org/abs/2506.11885v2
• Date: Thu, 10 Jul 2025 05:47:36 GMT
• Title: Fast and High Excitation Transport in Waveguide Quantum Electrodynamics
• Authors: Ya-Tang Yu, I Gusti Ngurah Yudi Handayana, Wei Chen, H. H. Jen,
• Abstract summary: We show a fast and high atomic excitation transport by employing two well-separated chirally-coupled atomic arrays.<n>This enhanced waveguide-mediated transport of excitations emerges due to the dominance of spectrally isolated and right-localized right eigenstates.<n>Our results showcase the wide applicability in wQED platforms and provide insights to quantum engineering and quantum information applications.
• Score: 3.931881794708454
• License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
• Abstract: Waveguide quantum electrodynamics (wQED) with underlying collective and long-range atom-atom interactions has led to many distinct dynamical phenomena, including modified collective radiations and intriguing quantum correlations. It stands out as a unique platform to illustrate correlated photon transport, as well as to promise applications in quantum information processing. Here we manifest a fast and high atomic excitation transport by employing two well-separated chirally-coupled atomic arrays. This enhanced waveguide-mediated transport of excitations emerges due to the dominance of spectrally isolated and right-localized right eigenstates in the system's dynamics. Contrary to the instinct of applying the cascaded systems with unidirectional couplings to expedite direct and high excitation transport, the optimal system configurations in open wQED systems demand slight or finite nonreciprocal decay channels to facilitate energy transport by exploiting waveguide-mediated couplings. We also investigate the effect of the couplings' directionality and the scaling of atom number on the transport properties. Our results showcase the wide applicability in wQED platforms and provide insights to quantum engineering and quantum information applications.

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