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A: Fachverband Atomphysik

A 26: Poster III

A 26.66: Poster

Donnerstag, 17. März 2011, 16:00–18:30, P2

Self-rephasing of a cold atomic ensemble for extended coherence times — •Christian Deutsch¹, Fernando Ramirez-Martinez², Wilfried Maineult², Clement Lacroûte², Friedemann Reinhard¹, Jean-Noël Fuchs³, Fréderic Piéchon³, Franck Laloë¹, Jakob Reichel¹, and Peter Rosenbusch² — ¹LKB - Ecole Normale Supérieure - UPMC - CNRS - Paris — ²SYRTE - Observatoire de Paris - UPMC - CNRS - Paris — ³Laboratoire de Physique des Solides- Univ. Paris-Sud - CNRS - Orsay

We report on the observation of very long coherence times on ultracold trapped 87Rb atoms. The experiment[1] is designed to operate a microwave atomic clock in the 10⁻¹³ s^−1/2 stability regime in a compact setup. The spatial inhomogeneities of Zeeman and collisional shift are largely compensated. Remaining field inhomogeneities limit the frequency spread to < 80mHz giving rise to dephasing of the individual atoms on a timescale of 2 to 3 s [2]. Surprisingly the coherence time is more than an order of magnitude larger than expected.

We explain this by a rephasing of the atomic spins driven by the Identical Spin Rotation Effect[3] acting as a continous spin echo. The interaction effect is demonstrated by tuning the atom density and thereby the ISRE rate[4].

The effect is very general in nature and should be observable in a multitude of systems.

[1] IEEE TUFFC 56, 106 (2010), [2] Appl Phys B 95, 227 (2009), [3] Phys Rev. Lett. 102, 215301 (2009), [4] Phys Rev Let 105, 2, 020401 (2010)