Waveguide photonic crystal reflectors on InP-membranes-on-silicon: student paper

Sander Reniers; Jorn van Engelen; Kevin Williams; Jos van der Tol; Yuqing Jiao

Waveguide photonic crystal reflectors on InP-membranes-on-silicon: student paper

Sander Reniers, Jorn van Engelen, Kevin Williams, Jos van der Tol, Yuqing Jiao

Photonic Integration

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We present waveguide photonic crystal reflectors on an InP-membrane-on-silicon (IMOS). Photonic crystal holes are patterned on a waveguide using electron-beam lithography to create a broadband distributed Bragg reflector. We show simulations of these reflectors and experimental results of fabricated devices, both showing a high, free to choose reflectivity, and high quality factor Fabry-Perot cavities. We experimentally show reflectivities >90% for the reflectors and a quality factor as high as 11,430±1,446 for a Fabry-Perot cavity, using reflectors with a length of only 4 microns.

Originele taal-2	Engels
Aantal pagina's	3
Status	Gepubliceerd - 26 apr 2019
Evenement	21th European Conference on Integrated Optics - Het Pand, Ghent, België Duur: 24 apr 2019 → 26 apr 2019 Congresnummer: 21 http://www.ecio-conference.org

Congres

Congres	21th European Conference on Integrated Optics
Verkorte titel	ECIO
Land	België
Stad	Ghent
Periode	24/04/19 → 26/04/19
Internet adres	http://www.ecio-conference.org

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Reniers, S., van Engelen, J., Williams, K., van der Tol, J., & Jiao, Y. (2019). Waveguide photonic crystal reflectors on InP-membranes-on-silicon: student paper. Paper gepresenteerd op 21th European Conference on Integrated Optics, Ghent, België.

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title = "Waveguide photonic crystal reflectors on InP-membranes-on-silicon: student paper",

abstract = "We present waveguide photonic crystal reflectors on an InP-membrane-on-silicon (IMOS). Photonic crystal holes are patterned on a waveguide using electron-beam lithography to create a broadband distributed Bragg reflector. We show simulations of these reflectors and experimental results of fabricated devices, both showing a high, free to choose reflectivity, and high quality factor Fabry-Perot cavities. We experimentally show reflectivities >90{\%} for the reflectors and a quality factor as high as 11,430±1,446 for a Fabry-Perot cavity, using reflectors with a length of only 4 microns.",

keywords = "photonic integrated circuit, photonic membrane, photonic crystal, waveguide reflector",

author = "Sander Reniers and {van Engelen}, Jorn and Kevin Williams and {van der Tol}, Jos and Yuqing Jiao",

year = "2019",

month = "4",

day = "26",

language = "English",

note = "21th European Conference on Integrated Optics, ECIO ; Conference date: 24-04-2019 Through 26-04-2019",

url = "http://www.ecio-conference.org",

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T1 - Waveguide photonic crystal reflectors on InP-membranes-on-silicon

T2 - student paper

AU - Reniers, Sander

AU - van Engelen, Jorn

AU - Williams, Kevin

AU - van der Tol, Jos

AU - Jiao, Yuqing

PY - 2019/4/26

Y1 - 2019/4/26

N2 - We present waveguide photonic crystal reflectors on an InP-membrane-on-silicon (IMOS). Photonic crystal holes are patterned on a waveguide using electron-beam lithography to create a broadband distributed Bragg reflector. We show simulations of these reflectors and experimental results of fabricated devices, both showing a high, free to choose reflectivity, and high quality factor Fabry-Perot cavities. We experimentally show reflectivities >90% for the reflectors and a quality factor as high as 11,430±1,446 for a Fabry-Perot cavity, using reflectors with a length of only 4 microns.

AB - We present waveguide photonic crystal reflectors on an InP-membrane-on-silicon (IMOS). Photonic crystal holes are patterned on a waveguide using electron-beam lithography to create a broadband distributed Bragg reflector. We show simulations of these reflectors and experimental results of fabricated devices, both showing a high, free to choose reflectivity, and high quality factor Fabry-Perot cavities. We experimentally show reflectivities >90% for the reflectors and a quality factor as high as 11,430±1,446 for a Fabry-Perot cavity, using reflectors with a length of only 4 microns.

KW - photonic integrated circuit

KW - photonic membrane

KW - photonic crystal

KW - waveguide reflector

M3 - Paper

ER -

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