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Effect of loss on the dispersion relation of photonic and phononic crystals

A theoretical analysis is made of the transformation of the dispersion relation of waves in artificial crystals under the influence of loss, including the case of photonic and phononic crystals. Considering a general dispersion relation in implicit form, an analytic procedure is derived to obtain the transformed dispersion relation. It is shown that the dispersion relation is generally shifted in the complex $(k,ω)$ plane, with $k$ the wavenumber and $ω$ the angular frequency. The value of the shift is obtained explicitly as a function of the perturbation of material constants accounting for loss. The method is shown to predict correctly the transformation of the complex band structure $k(ω)$. Several models of the dispersion relation near a symmetry point of the Brillouin zone are analyzed. A lower bound for the group velocity, related to the local shape of the band around symmetry points, is derived for each case.

preprint2013arXivOpen access
Vincent LaudeJose Maria EscalanteAlejandro Martinez
physics.optics
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Vincent LaudeJose Maria EscalanteAlejandro Martinez

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