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Main Authors: Terradas-Briansó, Sergi, González-Gutiérrez, Carlos A., Huarte, Iván, Zueco, David, Martin-Moreno, Luis
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2602.16032
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author Terradas-Briansó, Sergi
González-Gutiérrez, Carlos A.
Huarte, Iván
Zueco, David
Martin-Moreno, Luis
author_facet Terradas-Briansó, Sergi
González-Gutiérrez, Carlos A.
Huarte, Iván
Zueco, David
Martin-Moreno, Luis
contents Waveguide quantum electrodynamics platforms have emerged as promising candidates for exploring and implementing non-Markovian quantum phenomena. In this work, we investigate the formation and dynamics of superpositions of bound states in a cavity array waveguide coupled to two spatially separated quantum emitters. By tuning the system parameters, we show that spontaneous emission can drive the system into non-local equilibrium states in which both photonic and emitter populations exhibit persistent oscillations. These states arise from the coexistence of bound states embedded in the energy continuum and bound states outside it, leading to hybrid oscillatory modes. We analytically derive the conditions required for the emergence of these states, numerically simulate their formation through spontaneous emission, and predict their long-time behaviour. Our results demonstrate that such bound-state superpositions enable the generation of emitter-emitter interaction through free evolution, while supporting oscillatory breathing modes of the photon density between the emitters.
format Preprint
id arxiv_https___arxiv_org_abs_2602_16032
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Multi-emitter oscillating bound states in Waveguide QED
Terradas-Briansó, Sergi
González-Gutiérrez, Carlos A.
Huarte, Iván
Zueco, David
Martin-Moreno, Luis
Quantum Physics
Waveguide quantum electrodynamics platforms have emerged as promising candidates for exploring and implementing non-Markovian quantum phenomena. In this work, we investigate the formation and dynamics of superpositions of bound states in a cavity array waveguide coupled to two spatially separated quantum emitters. By tuning the system parameters, we show that spontaneous emission can drive the system into non-local equilibrium states in which both photonic and emitter populations exhibit persistent oscillations. These states arise from the coexistence of bound states embedded in the energy continuum and bound states outside it, leading to hybrid oscillatory modes. We analytically derive the conditions required for the emergence of these states, numerically simulate their formation through spontaneous emission, and predict their long-time behaviour. Our results demonstrate that such bound-state superpositions enable the generation of emitter-emitter interaction through free evolution, while supporting oscillatory breathing modes of the photon density between the emitters.
title Multi-emitter oscillating bound states in Waveguide QED
topic Quantum Physics
url https://arxiv.org/abs/2602.16032