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Paper detail

Theory of waveguide-QED with moving emitters

We theoretically study a system composed by a waveguide and a moving quantum emitter in the single excitation subspace, treating the emitter motional degree of freedom quantum mechanically. We first characterize single-photon scattering off a single moving quantum emitter, showing both nonreciprocal transmission and recoil-induced reduction of the quantum emitter motional energy. We then characterize the bound states within the bandgap, which display a motion-induced asymmetric phase in real space. We also demonstrate how these bound states form a continuous band with exotic dispersion relations. Finally, we study the spontaneous emission of an initially excited quantum emitter with various initial momentum distributions, finding strong deviations with respect to the static emitter counterpart both in the occupation dynamics and in the spatial distribution of the emitted photons. Our work extends the waveguide-QED toolbox by including the quantum motional degree of freedom of emitters, whose impact in the few-photon dynamics could be harnessed for quantum technologies.

preprint2020arXivOpen access
Eduardo Sánchez-BurilloAlejandro González-TudelaCarlos Gonzalez-Ballestero
physics.atom-phphysics.opticsquant-ph
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Eduardo Sánchez-BurilloAlejandro González-TudelaCarlos Gonzalez-Ballestero

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