High-Q inverted silica microtoroid resonators monolithically integrated into a silicon photonics platform

Jens Richter; Maziar P. Nezhad; Birgit Hadam; Thomas Taubner; Joachim Knoch; Florian Merget; Alvaro Moscoso-Mártir; Jeremy Witzens

doi:10.1364/OE.26.027418

High-Q inverted silica microtoroid resonators monolithically integrated into a silicon photonics platform

Jens Richter
, Maziar P. Nezhad
, Birgit Hadam
, Thomas Taubner
, Joachim Knoch
, Florian Merget
, Alvaro Moscoso-Mártir
, Jeremy Witzens

School of Computer Science & Engineering

RWTH Aachen University

Research output: Contribution to journal › Article › peer-review

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Abstract

We report on the monolithic integration of a new class of reflown silica microtoroid resonators with silicon nanowaveguides fabricated on top of the silica film. Connectivity with other silicon photonics devices is enabled by inversion of the toroid geometry, defined by etching a circular opening rather than a disk in an undercut silica membrane. Intrinsic quality factors of up to 2 million are achieved and several avenues of process improvement are identified that can help attain the higher quality factors (> 108) that are possible in reflown microtoroids. Moreover, due to the microtoroid being formed by standard microfabrication and post-processing by local laser induced heating, these devices are in principle compatible with monolithic co-fabrication with other electro-optic components

Original language	English
Pages (from-to)	27418-27440
Journal	Optics Express
Volume	26
Issue number	21
Early online date	5 Oct 2018
DOIs	https://doi.org/10.1364/OE.26.027418
Publication status	Published - 15 Oct 2018

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10.1364/OE.26.027418

2018-High-Q inverted silica microtoroid resonators monolithically integrated into a silicon photonics platformFinal published version, 5.11 MBLicence: Other

Cite this

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title = "High-Q inverted silica microtoroid resonators monolithically integrated into a silicon photonics platform",

abstract = "We report on the monolithic integration of a new class of reflown silica microtoroid resonators with silicon nanowaveguides fabricated on top of the silica film. Connectivity with other silicon photonics devices is enabled by inversion of the toroid geometry, defined by etching a circular opening rather than a disk in an undercut silica membrane. Intrinsic quality factors of up to 2 million are achieved and several avenues of process improvement are identified that can help attain the higher quality factors (> 108) that are possible in reflown microtoroids. Moreover, due to the microtoroid being formed by standard microfabrication and post-processing by local laser induced heating, these devices are in principle compatible with monolithic co-fabrication with other electro-optic components",

author = "Jens Richter and Nezhad, \{Maziar P.\} and Birgit Hadam and Thomas Taubner and Joachim Knoch and Florian Merget and Alvaro Moscoso-M{\'a}rtir and Jeremy Witzens",

note = "European Research Council (ERC) project “Frontiers of Integrated Silicon Nanophotonics in Telecommunications” (279770); Excellence Initiative of the German Federal and State Governments. OSA Open Access",

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doi = "10.1364/OE.26.027418",

language = "English",

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T1 - High-Q inverted silica microtoroid resonators monolithically integrated into a silicon photonics platform

AU - Richter, Jens

AU - Nezhad, Maziar P.

AU - Hadam, Birgit

AU - Taubner, Thomas

AU - Knoch, Joachim

AU - Merget, Florian

AU - Moscoso-Mártir, Alvaro

AU - Witzens, Jeremy

N1 - European Research Council (ERC) project “Frontiers of Integrated Silicon Nanophotonics in Telecommunications” (279770); Excellence Initiative of the German Federal and State Governments. OSA Open Access

PY - 2018/10/15

Y1 - 2018/10/15

N2 - We report on the monolithic integration of a new class of reflown silica microtoroid resonators with silicon nanowaveguides fabricated on top of the silica film. Connectivity with other silicon photonics devices is enabled by inversion of the toroid geometry, defined by etching a circular opening rather than a disk in an undercut silica membrane. Intrinsic quality factors of up to 2 million are achieved and several avenues of process improvement are identified that can help attain the higher quality factors (> 108) that are possible in reflown microtoroids. Moreover, due to the microtoroid being formed by standard microfabrication and post-processing by local laser induced heating, these devices are in principle compatible with monolithic co-fabrication with other electro-optic components

AB - We report on the monolithic integration of a new class of reflown silica microtoroid resonators with silicon nanowaveguides fabricated on top of the silica film. Connectivity with other silicon photonics devices is enabled by inversion of the toroid geometry, defined by etching a circular opening rather than a disk in an undercut silica membrane. Intrinsic quality factors of up to 2 million are achieved and several avenues of process improvement are identified that can help attain the higher quality factors (> 108) that are possible in reflown microtoroids. Moreover, due to the microtoroid being formed by standard microfabrication and post-processing by local laser induced heating, these devices are in principle compatible with monolithic co-fabrication with other electro-optic components

U2 - 10.1364/OE.26.027418

DO - 10.1364/OE.26.027418

M3 - Article

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JO - Optics Express

JF - Optics Express

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ER -

High-Q inverted silica microtoroid resonators monolithically integrated into a silicon photonics platform

Abstract

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