Tunable photonic crystal circuits: concepts and designs based on single-pore infiltration

Sergei F. Mingaleev; Matthias Schillinger; Daniel Hermann; Kurt Busch

doi:10.1364/OL.29.002858

Optics Letters
Vol. 29,
Issue 24,
pp. 2858-2860
(2004)
•https://doi.org/10.1364/OL.29.002858

Tunable photonic crystal circuits: concepts and designs based on single-pore infiltration

Sergei F. Mingaleev, Matthias Schillinger, Daniel Hermann, and Kurt Busch

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Sergei F. Mingaleev, Matthias Schillinger, Daniel Hermann, and Kurt Busch, "Tunable photonic crystal circuits: concepts and designs based on single-pore infiltration," Opt. Lett. 29, 2858-2860 (2004)

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Abstract

We demonstrate that the infiltration of individual pores of certain two-dimensional photonic crystals with liquid crystals and (or) polymers provides an efficient platform for the realization of integrated photonic crystal circuitry. As an illustration of this principle, we present designs for monomode photonic crystal waveguides and certain functional elements, such as waveguide bends, beam splitters, and waveguide intersections. These devices exhibit very low reflection over broad frequency ranges. In addition, we discuss the inherent tunability of these devices that originates in the tunability of the infiltrated material.

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