Monolithically Integrated CMOS-Compatible III-V on Silicon Lasers

CMOS-compatible III-V lasers integrated on silicon are a crucial step to reduce power consumption and cost for next-generation optical transceivers. Here, we demonstrate a concept to co-integrate III-V lasers into a CMOS Silicon Photonics platform, in which lasers, photonics, and electronic circuitr...

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Veröffentlicht in:	IEEE journal of selected topics in quantum electronics 2018-11, Vol.24 (6), p.1-9
Hauptverfasser:	Seifried, Marc, Villares, Gustavo, Baumgartner, Yannick, Hahn, Herwig, Halter, Mattia, Horst, Folkert, Caimi, Daniele, Caer, Charles, Sousa, Marilyne, Dangel, Roger Franz, Czornomaz, Lukas, Offrein, Bert Jan
Format:	Artikel
Sprache:	eng
Schlagworte:	CMOS III-V Laser Laser modes Optical receivers Optical waveguides Photonics Power lasers Silicon Silicon Photonics Waveguide lasers
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creator	Seifried, Marc Villares, Gustavo Baumgartner, Yannick Hahn, Herwig Halter, Mattia Horst, Folkert Caimi, Daniele Caer, Charles Sousa, Marilyne Dangel, Roger Franz Czornomaz, Lukas Offrein, Bert Jan
description	CMOS-compatible III-V lasers integrated on silicon are a crucial step to reduce power consumption and cost for next-generation optical transceivers. Here, we demonstrate a concept to co-integrate III-V lasers into a CMOS Silicon Photonics platform, in which lasers, photonics, and electronic circuitry share the same back end of line. Based on a bonded III-V epitaxial layer stack, ultra-thin laser devices, optically pumped lasing and coupling to silicon are demonstrated. Furthermore, we present all building blocks for electrically pumped laser devices.
doi_str_mv	10.1109/JSTQE.2018.2832654
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subjects	CMOS III-V Laser Laser modes Optical receivers Optical waveguides Photonics Power lasers Silicon Silicon Photonics Waveguide lasers
title	Monolithically Integrated CMOS-Compatible III-V on Silicon Lasers
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