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arxiv: physics/0509104 · v1 · submitted 2005-09-13 · ⚛️ physics.optics · physics.atom-ph

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Cancellation of light-shifts in an N-resonance clock

Irina Novikova , Alexei V. Taichenachev , Valery I. Yudin , David F. Phillips , Alexander S. Zibrov , Ronald L. Walsworth
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classification ⚛️ physics.optics physics.atom-ph
keywords n-resonanceclockfrequencystabilityapparatuscancellationdesignedlight-shifts
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We demonstrate that first-order light-shifts can be cancelled for an all-optical, three-photon-absorption resonance ("N-resonance") on the D1 transition of Rb87. This light-shift cancellation enables improved frequency stability for an N-resonance clock. For example, using a table-top apparatus designed for N-resonance spectroscopy, we measured a short-term fractional frequency stability (Allan deviation) 1.5e-11 tau^(-1/2) for observation times 1s< tau < 50s. Further improvements in frequency stability should be possible with an apparatus designed as a dedicated N-resonance clock.

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