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Generation and detection of a sub-Poissonian atom number distribution in a one-dimensional optical lattice

We demonstrate preparation and detection of an atom number distribution in a one-dimensional atomic lattice with the variance $-14$ dB below the Poissonian noise level. A mesoscopic ensemble containing a few thousand atoms is trapped in the evanescent field of a nanofiber. The atom number is measured through dual-color homodyne interferometry with a pW-power shot noise limited probe. Strong coupling of the evanescent probe guided by the nanofiber allows for a real-time measurement with a precision of $\pm 8$ atoms on an ensemble of some $10^3$ atoms in a one-dimensional trap. The method is very well suited for generating collective atomic entangled or spin-squeezed states via a quantum non-demolition measurement as well as for tomography of exotic atomic states in a one-dimensional lattice.

preprint2014arXivOpen access
J. -B. BéguinE. BookjansS. L. ChristensenH. L. SørensenJ. H. MüllerJ. AppelE. S. Polzik
physics.atom-phquant-ph
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J. -B. BéguinE. BookjansS. L. ChristensenH. L. SørensenJ. H. MüllerJ. AppelE. S. Polzik

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