Enhanced wavelength sensitivity of the self-collimation superprism effect in photonic crystals via slow light

Wei Li; Xiaogang Zhang; Xulin Lin; Xunya Jiang

doi:10.1364/OL.39.004486

Optics Letters
Vol. 39,
Issue 15,
pp. 4486-4489
(2014)
•https://doi.org/10.1364/OL.39.004486

Enhanced wavelength sensitivity of the self-collimation superprism effect in photonic crystals via slow light

Wei Li, Xiaogang Zhang, Xulin Lin, and Xunya Jiang

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Wei Li, Xiaogang Zhang, Xulin Lin, and Xunya Jiang, "Enhanced wavelength sensitivity of the self-collimation superprism effect in photonic crystals via slow light," Opt. Lett. 39, 4486-4489 (2014)

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Abstract

We demonstrate that the wavelength sensitivity of a self-collimation superprism in photonic crystals (PhCs) can be greatly improved via slow light. With the help of a saddle point Van Hove singularity, we present an approach to obtain such a wavelength-sensitive self-collimation superprism. Our superprism not only has extremely high wavelength sensitivity, but also can suppress beam divergence, irregular beam generation, and wavelength channel dropout, overcoming the limitations of traditional PhC-based superprisms. Based on our superprism, a high-performance compact demultiplexer is also proposed.

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Optics Letters