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RESEARCH PRODUCT
Revealing Hidden Quantum Correlations in an Electromechanical Measurement.
Caspar Ockeloen-korppiMika SillanpääGheorghe Sorin ParaoanuFrancesco MasselErno Damskäggsubject
PhotonUncertainty principleField (physics)General Physics and AstronomyFOS: Physical sciencesPhysics::Optics01 natural sciences010305 fluids & plasmasResonatorElectromagnetic cavity0103 physical sciencesMesoscale and Nanoscale Physics (cond-mat.mes-hall)kvanttimekaniikka010306 general physicsQuantumPhysicsQuantum PhysicsCondensed Matter - Mesoscale and Nanoscale Physicsta114quantum measurementsQuantum noiseShot noisesqueezing of quantum noiseoptomechanicsoptiset laitteetQuantum electrodynamicsQuantum Physics (quant-ph)description
Under a strong quantum measurement, the motion of an oscillator is disturbed by the measurement back-action, as required by the Heisenberg uncertainty principle. When a mechanical oscillator is continuously monitored via an electromagnetic cavity, as in a cavity optomechanical measurement, the back-action is manifest by the shot noise of incoming photons that becomes imprinted onto the motion of the oscillator. Following the photons leaving the cavity, the correlations appear as squeezing of quantum noise in the emitted field. Here we observe such "ponderomotive" squeezing in the microwave domain using an electromechanical device made out of a superconducting resonator and a drumhead mechanical oscillator. Under a strong measurement, the emitted field develops complex-valued quantum correlations, which in general are not completely accessible by standard homodyne measurements. We recover these hidden correlations, using a phase-sensitive measurement scheme employing two local oscillators. The utilization of hidden correlations presents a step forward in the detection of weak forces, as it allows to fully utilize the quantum noise reduction under the conditions of strong force sensitivity.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2018-12-14 | Physical review letters |