Two-mode thermal-noise squeezing in an electromechanical resonator

Two-mode thermal-noise squeezing in an electromechanical resonator

An electromechanical resonator is developed in which mechanical nonlinearities can be dynamically engineered to emulate the nondegenerate parametric down-conversion interaction. In this configuration, phonons are simultaneously generated in pairs in two macroscopic vibration modes, resulting in the...

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Bibliographic Details
Published in:Physical review letters Vol. 113; no. 16; p. 167203
Main Authors: Mahboob, I, Okamoto, H, Onomitsu, K, Yamaguchi, H
Format: Journal Article
Language:English
Published: United States 17-10-2014
Subjects:
Amplification
Compressing
Correlation
Fluctuation
Mechanical systems
Phonons
Resonators
Vibration mode
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Summary:An electromechanical resonator is developed in which mechanical nonlinearities can be dynamically engineered to emulate the nondegenerate parametric down-conversion interaction. In this configuration, phonons are simultaneously generated in pairs in two macroscopic vibration modes, resulting in the amplification of their motion. In parallel, two-mode thermal squeezed states are also created, which exhibit fluctuations below the thermal motion of their constituent modes as well as harboring correlations between the modes that become almost perfect as their amplification is increased. The existence of correlations between two massive phonon ensembles paves the way towards an entangled macroscopic mechanical system at the single phonon level.
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ISSN:0031-9007
1079-7114
DOI:10.1103/PhysRevLett.113.167203