Quantum-limited, cavity-free nano-optomechanical vectorial coupling with SiC nanowires and Carbon nanotubes

A. Gloppe; P. Verlot; E. Dupont-Ferrier; A. G. Kuhn; B. Pigeau; S. Rohr; A. Siria; P. Poncharal; P. Vincent; G. Bachelier; O. Arcizet

2013 Conference on Lasers and Electro-Optics - International Quantum Electronics Conference
(Optica Publishing Group, 2013),
paper CH_7_2

Quantum-limited, cavity-free nano-optomechanical vectorial coupling with SiC nanowires and Carbon nanotubes

A. Gloppe, P. Verlot, E. Dupont-Ferrier, A. G. Kuhn, B. Pigeau, S. Rohr, A. Siria, P. Poncharal, P. Vincent, G. Bachelier, and O. Arcizet

The European Conference on Lasers and Electro-Optics 2013

Munich Germany
12–16 May 2013
ISBN: 978-1-4799-0594-2

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Frontiers of Optical Sensing (CH_7)

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A. Gloppe, P. Verlot, E. Dupont-Ferrier, A. G. Kuhn, B. Pigeau, S. Rohr, A. Siria, P. Poncharal, P. Vincent, G. Bachelier, and O. Arcizet, "Quantum-limited, cavity-free nano-optomechanical vectorial coupling with SiC nanowires and Carbon nanotubes," in 2013 Conference on Lasers and Electro-Optics - International Quantum Electronics Conference, (Optica Publishing Group, 2013), paper CH_7_2.

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Abstract

Most of the optomechanical studies [1] have so far been restricted to objects with sizes much larger than the optical wavelength. Sensitive nano-optomechanical coupling has also been evidenced, but with wavelength size objects which were incorporated into advanced optical microcavity designs. We report a new of ultra-sensitive nano-optomechanical system that breaks these barriers, and enables unprecedentedly sensitive vectorial nanomechanical motion detection of objects (SiC nanowires and CNT) far smaller than the optical wavelength.

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