Physics – Quantum Physics
Scientific paper
2005-11-24
Phys. Rev. A 73, 043406 (2006)
Physics
Quantum Physics
Version 2; formula in equ. 3 corrected
Scientific paper
10.1103/PhysRevA.73.043406
We describe a simple experimental technique which allows to store a single Rubidium 87 atom in an optical dipole trap. Due to light-induced two-body collisions during the loading stage of the trap the maximum number of captured atoms is locked to one. This collisional blockade effect is confirmed by the observation of photon anti-bunching in the detected fluorescence light. The spectral properties of single photons emitted by the atom were studied with a narrow-band scanning cavity. We find that the atomic fluorescence spectrum is dominated by the spectral width of the exciting laser light field. In addition we observe a spectral broadening of the atomic fluorescence light due to the Doppler effect. This allows us to determine the mean kinetic energy of the trapped atom corresponding to a temperature of 105 micro Kelvin. This simple single-atom trap is the key element for the generation of atom-photon entanglement required for future applications in quantum communication and a first loophole-free test of Bell's inequality.
Kurtsiefer Christian
Saucke Karen
Volz Juergen
Weber Markus
Weinfurter Harald
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