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Observation and interpretation of motional sideband asymmetry in a quantum electro-mechanical device

Quantum electro-mechanical systems offer a unique opportunity to probe quantum noise properties in macroscopic devices, properties which ultimately stem from the Heisenberg Uncertainty Principle. A simple example of this is expected to occur in a microwave parametric transducer, where mechanical motion generates motional sidebands corresponding to the up and down frequency-conversion of microwave photons. Due to quantum vacuum noise, the rates of these processes are expected to be unequal. We measure this fundamental imbalance in a microwave transducer coupled to a radio-frequency mechanical mode, cooled near the ground state of motion. We also discuss the subtle origin of this imbalance: depending on the measurement scheme, the imbalance is most naturally attributed to the quantum fluctuations of either the mechanical mode or of the electromagnetic field.

preprint2014arXivOpen access
A. J. WeinsteinC. U. LeiE. E. WollmanJ. SuhA. MetelmannA. A. ClerkK. C. Schwab
cond-mat.mes-hallquant-ph
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A. J. WeinsteinC. U. LeiE. E. WollmanJ. SuhA. MetelmannA. A. ClerkK. C. Schwab

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