Collective Atomic Motion in an Optical Lattice Formed Inside a High Finesse Cavity
- 10 October 2003
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review Letters
- Vol. 91 (15) , 153003
- https://doi.org/10.1103/physrevlett.91.153003
Abstract
We report on collective nonlinear dynamics in an optical lattice formed inside a high finesse ring cavity in a so far unexplored regime, where the light shift per photon times the number of trapped atoms exceeds the cavity resonance linewidth. We observe bistability and self-induced squeezing oscillations resulting from the retroaction of the atoms upon the optical potential wells. We can well understand most of our observations within a simplified model assuming adiabaticity of the atomic motion. Nonadiabatic aspects of the atomic motion are reproduced by solving the complete system of coupled nonlinear equations of motion.Keywords
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This publication has 12 references indexed in Scilit:
- Collective sideband cooling in an optical ring cavityPhysical Review A, 2003
- Optical lattice in a high-finesse ring resonatorPhysical Review A, 2003
- Observation of Collective-Emission-Induced Cooling of Atoms in an Optical CavityPhysical Review Letters, 2003
- Trapping an atom with single photonsNature, 2000
- The Atom-Cavity Microscope: Single Atoms Bound in Orbit by Single PhotonsScience, 2000
- Quantum entanglement in dilute optical latticesPhysical Review A, 1999
- Cooling an atom in a weakly driven high-cavityPhysical Review A, 1998
- Cavity-Induced Atom Cooling in the Strong Coupling RegimePhysical Review Letters, 1997
- Motion of a two-level atom in an optical cavityPhysical Review A, 1997
- Optical nonlinear dynamics with cold atoms in a cavityOptics Communications, 1995