Squeezing of Quantum Noise of Motion in a Micromechanical Resonator

Squeezing of Quantum Noise of Motion in a Micromechanical Resonator

A pair of conjugate observables, such as the quadrature amplitudes of harmonic motion, have fundamental fluctuations that are bound by the Heisenberg uncertainty relation. However, in a squeezed quantum state, fluctuations of a quantity can be reduced below the standard quantum limit, at the cost of...

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Veröffentlicht in:Physical review letters 2015-12, Vol.115 (24), p.243601-243601
Hauptverfasser: Pirkkalainen, J-M, Damskägg, E, Brandt, M, Massel, F, Sillanpää, M A
Format: Artikel
Sprache:eng
Schlagworte:
Amplitudes
Compressing
Conjugates
Fluctuation
Noise levels
Quadratures
Resonators
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Zusammenfassung:A pair of conjugate observables, such as the quadrature amplitudes of harmonic motion, have fundamental fluctuations that are bound by the Heisenberg uncertainty relation. However, in a squeezed quantum state, fluctuations of a quantity can be reduced below the standard quantum limit, at the cost of increased fluctuations of the conjugate variable. Here we prepare a nearly macroscopic moving body, realized as a micromechanical resonator, in a squeezed quantum state. We obtain squeezing of one quadrature amplitude 1.1±0.4  dB below the standard quantum limit, thus achieving a long-standing goal of obtaining motional squeezing in a macroscopic object.
ISSN:0031-9007
1079-7114
DOI:10.1103/PhysRevLett.115.243601