Wavelength-sized cavities in high aspect InP/InGaAsP/InP photonic crystals

Kicken, Hhje Harm; Barbu, I Ionut; Heijden, van der Rw Rob; Karouta, F.; Nötzel, R.; Drift, van der Ewjm; Salemink, H.W.M.

doi:10.1063/1.3246865

Journal of Applied Physics

2009

DOI: 10.1063/1.3246865

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Wavelength-sized cavities in high aspect InP/InGaAsP/InP photonic crystals

Hhje Harm Kicken¹,

I Ionut Barbu²,

van der Rw Rob Heijden³

et al.

Abstract: The photonic properties of two classes of wavelength-sized cavities are reported for deeply etched InP/InGaAsP/InP planar photonic crystals. The high aspect, deeply etched structures are studied as potential building blocks for nonmembrane type photonic devices in standard InP photonic integrated circuits. The first class consists of cavities of one unit cell in one direction and varying size in the other planar direction. The studied class includes a Fabry-Perot type cavity with one row of missing holes, a si… Show more

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Optical switching in hybrid semiconductor nonlinear photonic crystal slabs with Kerr materials

Qin

Liu

Li³

2010

J. Opt.

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Nonlinear photonic crystals, whose refractive index distribution can be tuned optically, have been used to demonstrate all-optical switching due to a change of the refractive index and subsequent shift of the bandgap edge or the defect state resonant frequency. Semiconductor-based all-optical switching is still limited by the weak nonlinearity and the slow response time owing to the slow dynamics of two-photon-generated free carriers. Here we introduce a concept of hybrid nonlinear photonic crystals that are made from infiltrating the air-hole array or coating the surface of the usual semiconductor photonic crystal slabs with organic polystyrene materials. The hybrid configuration can help to realize very fast response speeds and strong nonlinearity in the semiconductor-based device. We study the influence of the thickness of the polystyrene film on the gap shift scale, and also analyze its physical mechanism. The switching effect on this structure was discussed, and shows that the nonlinear hybrid structure can achieve relatively larger transmission contrast. Our result may be helpful in designing integrated optical circuits.

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Optical switching in hybrid semiconductor nonlinear photonic crystal slabs with Kerr materials

Qin

Liu

Li³

2010

J. Opt.

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Progress in Germanium Tin (GeSn) Photonic Crystal Lasers

Thai

Chrétien

Bertrand

et al. 2022

IEEE J. Select. Topics Quantum Electron.

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Wavelength-sized cavities in high aspect InP/InGaAsP/InP photonic crystals

Cited by 2 publications

References 30 publications

Optical switching in hybrid semiconductor nonlinear photonic crystal slabs with Kerr materials

Optical switching in hybrid semiconductor nonlinear photonic crystal slabs with Kerr materials

Progress in Germanium Tin (GeSn) Photonic Crystal Lasers

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