Light transport in cold atoms and thermal decoherence
arXiv:quant-ph/0603153 · doi:10.1103/PhysRevLett.97.013004
Abstract
By using the coherent backscattering interference effect, we investigate experimentally and theoretically how coherent transport of light inside a cold atomic vapour is affected by the residual motion of atomic scatterers. As the temperature of the atomic cloud increases, the interference contrast dramatically decreases emphazising the role of motion-induced decoherence for resonant scatterers even in the sub-Doppler regime of temperature. We derive analytical expressions for the corresponding coherence time.
4 pages - submitted to Physical Review Letters