Thermally tuneable integrated diamond micro-disk resonators fabricated by micro-assembly

Research output: Contribution to conferenceSpeech

Abstract

We present a method for the fabrication of single crystal diamond micro-resonators and their hybrid integration with silicon waveguides. Devices with loaded Q-factors up to ~7.4x104 are demonstrated in the optical fibre telecommunications C- and L-bands. Resonant wavelength tuning is achieved using thermo-optic effects at mW on-chip optical pump powers.

Conference

ConferenceSymposium Latsis 2019
CountrySwitzerland
CityLausanne
Period19/05/1922/05/19
Internet address

Fingerprint

C band
ultrahigh frequencies
telecommunication
Q factors
assembly
optical fibers
resonators
diamonds
chips
tuning
optics
pumps
waveguides
fabrication
single crystals
silicon
wavelengths

Keywords

  • diamond micro resonators
  • silicon waveguides
  • optical pumping

Cite this

@conference{ed03a4a0dcbb4954b65ff0d643b721b9,
title = "Thermally tuneable integrated diamond micro-disk resonators fabricated by micro-assembly",
abstract = "We present a method for the fabrication of single crystal diamond micro-resonators and their hybrid integration with silicon waveguides. Devices with loaded Q-factors up to ~7.4x104 are demonstrated in the optical fibre telecommunications C- and L-bands. Resonant wavelength tuning is achieved using thermo-optic effects at mW on-chip optical pump powers.",
keywords = "diamond micro resonators, silicon waveguides, optical pumping",
author = "Paul Hill and Charalambos Klitis and Benoit Guilhabert and Marc Sorel and Erdan Gu and Dawson, {Martin D.} and Strain, {Michael J.}",
year = "2019",
month = "4",
day = "25",
language = "English",
note = "Symposium Latsis 2019 : Diamond Photonics ; Conference date: 19-05-2019 Through 22-05-2019",
url = "https://latsis2019.epfl.ch/",

}

Hill, P, Klitis, C, Guilhabert, B, Sorel, M, Gu, E, Dawson, MD & Strain, MJ 2019, 'Thermally tuneable integrated diamond micro-disk resonators fabricated by micro-assembly' Symposium Latsis 2019, Lausanne, Switzerland, 19/05/19 - 22/05/19, .

Thermally tuneable integrated diamond micro-disk resonators fabricated by micro-assembly. / Hill, Paul; Klitis, Charalambos; Guilhabert, Benoit; Sorel, Marc; Gu, Erdan; Dawson, Martin D.; Strain, Michael J.

2019. Symposium Latsis 2019, Lausanne, Switzerland.

Research output: Contribution to conferenceSpeech

TY - CONF

T1 - Thermally tuneable integrated diamond micro-disk resonators fabricated by micro-assembly

AU - Hill, Paul

AU - Klitis, Charalambos

AU - Guilhabert, Benoit

AU - Sorel, Marc

AU - Gu, Erdan

AU - Dawson, Martin D.

AU - Strain, Michael J.

PY - 2019/4/25

Y1 - 2019/4/25

N2 - We present a method for the fabrication of single crystal diamond micro-resonators and their hybrid integration with silicon waveguides. Devices with loaded Q-factors up to ~7.4x104 are demonstrated in the optical fibre telecommunications C- and L-bands. Resonant wavelength tuning is achieved using thermo-optic effects at mW on-chip optical pump powers.

AB - We present a method for the fabrication of single crystal diamond micro-resonators and their hybrid integration with silicon waveguides. Devices with loaded Q-factors up to ~7.4x104 are demonstrated in the optical fibre telecommunications C- and L-bands. Resonant wavelength tuning is achieved using thermo-optic effects at mW on-chip optical pump powers.

KW - diamond micro resonators

KW - silicon waveguides

KW - optical pumping

UR - https://latsis2019.epfl.ch/

M3 - Speech

ER -