Radiation pressure excitation and cooling of a cryogenic MEMS-cavity

Mario Siciliani de Cumis; Alessandro Farsi; Francesco Marino; Giuseppe D'Arrigo; Francesco Marin; Francesco Marin; Francesco Saverio Cataliotti; Francesco Saverio Cataliotti; Emanuele Rimini

CLEO/Europe and EQEC 2009 Conference Digest
(Optica Publishing Group, 2009),
paper EA5_6

Radiation pressure excitation and cooling of a cryogenic MEMS-cavity

Mario Siciliani de Cumis, Alessandro Farsi, Francesco Marino, Giuseppe D'Arrigo, Francesco Marin, Francesco Saverio Cataliotti, and Emanuele Rimini

European Quantum Electronics Conference 2009

Munich Germany
14–19 June 2009
ISBN: 978-1-4244-4080-1

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Quantum Optics I (EA5)

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M. S. de Cumis, A. Farsi, F. Marino, G. D'Arrigo, F. Marin, F. S. Cataliotti, and E. Rimini, "Radiation pressure excitation and cooling of a cryogenic MEMS-cavity," in CLEO/Europe and EQEC 2009 Conference Digest, (Optica Publishing Group, 2009), paper EA5_6.

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Abstract

The mechanical interaction of light with small but macroscopic oscillators, mediated by radiation pressure, has been investigated since the '70ies. Several theoretical studies have proposed schemes exploiting such interaction at the quantum level. The phenomena analyzed include pondero-motive squeezing, quantum non-demolition measurements, entanglement between radiation field and mechanical oscillators. The interest of this field of research extends from fundamental physics to applications in sensitive position and motion measurements. In spite of such enormous interest and variety of theoretical studies, no quantum effect has ever been shown experimentally, due to the extreme weakness of the phenomena and the overwhelming action of thermal noise. Our work represents a step toward the main goal of revealing such feeble quantum effects.

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