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Paper detail

Optically Measuring Force near the Standard Quantum Limit

The Heisenberg uncertainty principle sets a lower bound on the sensitivity of continuous optical measurements of force. This bound, the standard quantum limit, can only be reached when a mechanical oscillator subjected to the force is unperturbed by its environment, and when measurement imprecision from photon shot-noise is balanced against disturbance from measurement backaction. We apply an external force to the center-of-mass motion of an ultracold atom cloud in a high-finesse optical cavity. The optomechanically transduced response clearly demonstrates the trade-off between measurement imprecision and back-action noise. We achieve a sensitivity that is consistent with theoretical predictions for the quantum limit given the atoms' slight residual thermal disturbance and the photodetection quantum efficiency, and is a factor of 4 above the absolute standard quantum limit.

preprint2013arXivOpen access
Sydney SchrepplerNicolas SpethmannNathan BrahmsThierry BotterMaryrose BarriosDan M. Stamper-Kurn
physics.atom-phquant-ph
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Sydney SchrepplerNicolas SpethmannNathan BrahmsThierry BotterMaryrose BarriosDan M. Stamper-Kurn

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