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Quantum mechanics–free subsystem with mechanical oscillators

Laure Mercier de Lépinay, Caspar F. Ockeloen-Korppi, Matthew J. Woolley, Mika A. Sillanpää

2021Science189 citationsDOIOpen Access PDF

Abstract

Quantum mechanics sets a limit for the precision of continuous measurement of the position of an oscillator. We show how it is possible to measure an oscillator without quantum back-action of the measurement by constructing one effective oscillator from two physical oscillators. We realize such a quantum mechanics-free subsystem using two micromechanical oscillators, and show the measurements of two collective quadratures while evading the quantum back-action by 8 decibels on both of them, obtaining a total noise within a factor of 2 of the full quantum limit. This facilitates the detection of weak forces and the generation and measurement of nonclassical motional states of the oscillators. Moreover, we directly verify the quantum entanglement of the two oscillators by measuring the Duan quantity 1.4 decibels below the separability bound.

Topics & Concepts

PhysicsQuantum entanglementMeasure (data warehouse)QuantumQuantum limitQuantum mechanicsNoise (video)Position (finance)Quantum sensorLimit (mathematics)Quantum noiseQuantum discordClassical mechanicsWeak measurementQuantum processQuantum dynamicsQuantum systemQuantum stateOpen quantum systemQuantum measurementDecibelLocal oscillatorStatistical physicsQuantum operationWave functionMacroscopic quantum phenomenaQuantum technologyQuantum error correctionMechanical and Optical ResonatorsQuantum Information and CryptographyCold Atom Physics and Bose-Einstein Condensates
Quantum mechanics–free subsystem with mechanical oscillators | Litcius