Controlling radiative properties of circular atomic arrays through nanofiber guided modes
Résumé
We theoretically investigate the collective emission of one and two circular arrays of two-level atomssurrounding an optical nanofiber. We show that the radiation eigenmodes of a single ring selectively coupleto specific guided modes of the fiber, according to their symmetry, and study how the physical parameters of thesystem control their nature. In particular, we identify situations in which the emission toward radiation modesis highly suppressed with respect to fiber guided modes while the lifetime of the atomic excitation is enhanced.We further address the case of two identical rings positioned at a distance from each other along the nanofiber.By contrast to free-space configurations, the rings can exchange an excitation even at large separation throughnanofiber guided modes resulting in enhanced sub- and supper-radiance with respect to the single-ring case.Our findings suggest that the ring configuration is promising for the implementation of efficient and versatilelight-matter nanofiber-based interfaces and the achievement of waveguide quantum electrodynamics.
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