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Laser Locking and Cavity Manipulation With a Cavity Optoelectromechanical System

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4 Author(s)
Lee, K.H. ; Sch. of Math. & Phys., Univ. of Queensland, Brisbane, QLD, Australia ; McRae, Terry G. ; Knittel, J. ; Bowen, W.P.

Cavity optoelectromechanical systems combine the benefits of ultrasensitive motion transduction and strong mechanical actuation. We demonstrate the potential for photonic applications, implementing a Pound-Drever-Hall laser locking technique and strongly driving another mechanical mode, while remaining locked. The mechanical modes are resonantly excited in a silica microtoroid with a radio-frequency electric field, with the optomechanical coupling then imprinting a modulation on the circulating light and consequently the out-coupled light.

Published in:

Photonics Technology Letters, IEEE  (Volume:22 ,  Issue: 24 )

Date of Publication:

Dec.15, 2010

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