Abstract
Most studies on optical lattices are performed with lasers tuned on the red side of a transition connecting a ground level having an angular momentum J towards an excited state of angular momentum J+1. In this case the optical potential usually exhibit wells where atoms are located. The typical dynamical behaviour of an atom consists of oscillations in a well interrupted by jumps between wells. In the case of a transition connecting a ground level having an angular momentum J towards an excited state of angular momentum J-1, cooling can also be achieved on the blue side of the transition but the lowest potential is flat because of the occurence of an uncoupled state. When a static magnetic field is added, the optical potential becomes modulated but it generally exhibits antidots [1] [2] rather than wells. As a result atoms are free to move between these antidots. Actually atom trajectories calculated by numerical simulation show that atoms move by bouncing on the amtidots as billiard balls. We present experimental and numerical evidence of such trajectories.
© 1998 IEEE
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