Quantum amplification of mechanical oscillator motion

Author:

Burd S. C.12ORCID,Srinivas R.12,Bollinger J. J.1ORCID,Wilson A. C.1,Wineland D. J.123,Leibfried D.1,Slichter D. H.1ORCID,Allcock D. T. C.123ORCID

Affiliation:

1. Time and Frequency Division, National Institute of Standards and Technology, Boulder, CO 80305, USA.

2. Department of Physics, University of Colorado, Boulder, CO 80309, USA.

3. Department of Physics, University of Oregon, Eugene, OR 97403, USA.

Abstract

Improving precision with quantum amplification Quantum mechanically, an object can be described by a pair of noncommuting observables, typically by its position and momentum. The precision to which these observables can be measured is limited by unavoidable quantum fluctuations. However, the method of “squeezing” allows the fluctuations to be manipulated, while preserving the Heisenberg uncertainty relation. This allows improved measurement precision for one observable at the expense of increased fluctuations in the other. Burd et al. now show that an additional displacement of a trapped atom results in amplification of the squeezing and a further improvement in the precision with which the displacement can be determined (see the Perspective by Schleier-Smith). This technique should be useful for a number of applications in metrology. Science , this issue p. 1163 ; see also p. 1137

Funder

Office of Naval Research

National Institute of Standards and Technology

Publisher

American Association for the Advancement of Science (AAAS)

Subject

Multidisciplinary

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