Litcius/Paper detail

Gallium phosphide-on-insulator integrated photonic structures fabricated using micro-transfer printing

M. L. Billet, Luis Reis, Yoan Léger, Charles Cornet, Fabrice Raineri, I. Sagnes, Konstantinos Pantzas, G. Beaudoin, Günther Roelkens, François Léo, Bart Kuyken

2022Optical Materials Express18 citationsDOIOpen Access PDF

Abstract

Gallium phosphide-on-insulator emerged recently as a promising platform for integrated nonlinear photonics due to its intrinsic material properties. However, current integration solutions, using direct die-to-wafer bonding, do not support spatially localized integration with CMOS circuits which induce a large and expensive footprint material need. Here we demonstrate the transfer of gallium phosphide layers to an oxidized silicon wafer using micro-transfer printing as a new approach for versatile future (hybrid) integration. Using this novel approach, we demonstrate as a proof of concept the fabrication of gallium phosphide-on-insulator ring resonators with Q-factors as high as 35,000.

Topics & Concepts

Gallium phosphideMaterials scienceIndium phosphideOptoelectronicsPhotonic integrated circuitWaferTransfer printingPhosphideSilicon on insulatorPhotonicsIntegrated circuitWafer bondingFabricationResonatorGalliumNanotechnologySiliconGallium arsenideAlternative medicineComposite materialPathologyMedicineNickelMetallurgyPhotonic and Optical DevicesAdvanced Fiber Laser TechnologiesAdvanced Fiber Optic Sensors