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Feshbach resonances and their interaction in light scattering off photonic crystal slabs

The concept of Feshbach resonances developed for quantum mechanical scattering is applied in the analysis of classical light scattering off photonic crystal slabs. It is shown that this concept can be realized almost perfectly in these systems. As an application guided-mode resonances in the grating waveguide structure (GWS) are studied in detail. Using simple resonance dominance approximation the characteristic properties of isolated Feshbach resonances in light scattering are exhibited. Formation and interaction of overlapping resonances are investigated. The relevant parameters of the GWS are identified which control the shape of the reflectivity of interacting resonances as well as the enhancement of the electromagnetic field. The differences in the properties of TE and TM resonances is emphasized for both isolated and interacting resonances.

preprint2011arXivOpen access
Izhak EvenorEran GrinvaldFrieder LenzShimon Levit
physics.opticsnucl-thcond-mat.quant-gas
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Izhak EvenorEran GrinvaldFrieder LenzShimon Levit

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