III-nitride-based waveguides for ultrafast all-optical signal processing at 1.55 µm

We present an overview of the recently developed III-nitride-based optical waveguides for application in ultrafast signal processing at telecom wavelengths. We focus on different active and passive optical devices for further implementation within all-optical integrated circuits. Optical waveguides...

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Veröffentlicht in:	Physica status solidi. A, Applications and materials science Applications and materials science, 2016-05, Vol.213 (5), p.1269
Hauptverfasser:	Monteagudo-Lerma, Laura, Naranjo, Fernando B, Valdueza-Felip, Sirona, Jimenez-Rodriguez, Marco, Monroy, Eva, Postigo, Pablo A, Corredera, Pedro, Gonzalez-Herraez, Miguel
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creator	Monteagudo-Lerma, Laura Naranjo, Fernando B Valdueza-Felip, Sirona Jimenez-Rodriguez, Marco Monroy, Eva Postigo, Pablo A Corredera, Pedro Gonzalez-Herraez, Miguel
description	We present an overview of the recently developed III-nitride-based optical waveguides for application in ultrafast signal processing at telecom wavelengths. We focus on different active and passive optical devices for further implementation within all-optical integrated circuits. Optical waveguides based on GaN/AlN quantum dots have been demonstrated to act as saturable absorbers requiring 3pJ of input pulse energy to reach +3dB transmittance contrast for TM-polarized light. On the contrary, sputtered-InN-based devices show -3dB transmittance contrast associated to two-photon absorption for input pulse energies of 1pJ, making them suitable to act as highly-efficient reverse saturable absorbers. Finally, the passive optical nature of waveguides based on sputtered AlN at 1.55µm makes them suitable for further connections between different III-nitride-based active devices.
doi_str_mv	10.1002/pssa.201532810
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title	III-nitride-based waveguides for ultrafast all-optical signal processing at 1.55 µm
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