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Paper detail

Quantum back-action evading measurement of collective mechanical modes

The standard quantum limit constrains the precision of an oscillator position measurement. It arises from a balance between the imprecision and the quantum back-action of the measurement. However, a measurement of only a single quadrature of the oscillator can evade the back-action and be made with arbitrary precision. Here we demonstrate quantum back-action evading measurements of a collective quadrature of two mechanical oscillators, both coupled to a common microwave cavity. The work allows for quantum state tomography of two mechanical oscillators, and provides a foundation for macroscopic mechanical entanglement and force sensing beyond conventional quantum limits.

preprint2016arXivOpen access
C. F. Ockeloen-KorppiE. DamskäggJ. -M. PirkkalainenA. A. ClerkM. J. WoolleyM. A. Sillanpää
cond-mat.mes-hallquant-ph
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C. F. Ockeloen-KorppiE. DamskäggJ. -M. PirkkalainenA. A. ClerkM. J. WoolleyM. A. Sillanpää

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