Authors
Maxime Hermouet, Louise Banniard, Marc Sansa, Alexandre Fafin, Marc Gely, Sébastien Pauliac, Pierre Brianceau, Jacques-Alexandre Dallery, Pierre Etienne Allain, Eduardo Gil Santos, Ivan Favero, Thomas Alava, Guillaume Jourdan, Sébastien Hentz
Publication date
2017/8/28
Journal
Proceedings
Volume
1
Issue
4
Pages
347
Publisher
MDPI
Description
Cavity optomechanics have become a promising route towards the development of ultrasensitive sensors for a wide range of applications including mass, chemical and biological sensing. We demonstrate the potential of Very Large Scale Integration (VLSI) with state-of-the-art low-loss performance silicon optomechanical microdisks for real-world applications. We report microdisks exhibiting optical Whispering Gallery Modes (WGM) with 1 million quality factors. These high-Q microdisks allow their Brownian motion to be resolved at few 100 MHz in ambient air. Such performance shows our VLSI process is a viable approach for the next generation of high-end sensors operating in vacuum, gas or liquid phase.
Total citations
Scholar articles
M Hermouet, L Banniard, M Sansa, A Fafin, M Gely… - Proceedings, 2017