Miniaturizing optical cavity QED

February 24 2010
Types d’événements
Séminaire SPEC
Jakob Reichel
SPEC Salle Itzykson, Bât.774
24/02/2010
to 11:15

Second-long coherence times are a hallmark of laser-cooled atoms, and can be achieved both with single atoms and with ensembles. Applications based on this coherence include atomic clocks and atom interferometry. Combining it with efficient single-atom preparation and detection methods may enable quantum engineering in a style similar to ion traps, while maintaining the simplicity of a neutral-atom experiment. A particularly attractive platform for such developments are miniature atom traps on chips, called “atom chips”.

We have developed such methods using a novel fiber Fabry-Perot cavity on an atom chip, which works in the strong coupling regime of cavity quantum electrodynamics (CQED). This has enabled us to observe CQED effects with atomic Bose-Einstein condensates, and to optically detect single atoms with a back-action of less than one spontaneous photon – a result that is impossible to achieve with free-space optical interaction.

Laboratoire Kastler-Brossel