Gallium phosphide transfer printing for integrated nonlinear photonics

Maximilien Billet; Maximilien Billet; Maximilien Billet; Nicolas Poulvellarie; Nicolas Poulvellarie; Nicolas Poulvellarie; Camiel Op de Beeck; Camiel Op de Beeck; Luis Reis; Luis Reis; Luis Reis; Yoan Léger; Charles Cornet; Fabrice Raineri; Isabelle Sagnes; Konstantinos Pantzas; Grégoire Beaudoin; Gunther Roelkens; Gunther Roelkens; Francois Leo; Bart Kuyken; Bart Kuyken

2021 Conference on Lasers and Electro-Optics Europe and European Quantum Electronics Conference
OSA Technical Digest (Optica Publishing Group, 2021),
paper ck_8_5

Gallium phosphide transfer printing for integrated nonlinear photonics

Maximilien Billet, Nicolas Poulvellarie, Camiel Op de Beeck, Luis Reis, Yoan Léger, Charles Cornet, Fabrice Raineri, Isabelle Sagnes, Konstantinos Pantzas, Grégoire Beaudoin, Gunther Roelkens, Francois Leo, and Bart Kuyken

The European Conference on Lasers and Electro-Optics 2021

Munich Germany
21–25 June 2021
ISBN: 978-1-6654-1876-8

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Non-Linear Integrated Photonics (ck_8)

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M. Billet, N. Poulvellarie, C. O. de Beeck, L. Reis, Y. Léger, C. Cornet, F. Raineri, I. Sagnes, K. Pantzas, G. Beaudoin, G. Roelkens, F. Leo, and B. Kuyken, "Gallium phosphide transfer printing for integrated nonlinear photonics," in 2021 Conference on Lasers and Electro-Optics Europe and European Quantum Electronics Conference, OSA Technical Digest (Optica Publishing Group, 2021), paper ck_8_5.

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Abstract

Recently, gallium phosphide-on-insulator GaP-OI has been proposed as an efficient platform for second and third order nonlinear applications. Here we show GaP transfer printing as a novel versatile integration technique allowing for decent resonators building and second harmonic generation SHG.

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