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Collective dynamical cooling of neutral particles in a high- Q optical cavity

1999; American Physical Society; Volume: 61; Issue: 1 Linguagem: Inglês

10.1103/physreva.61.011402

1538-4446

Markus Gangl, Helmut Ritsch,

Quantum optics and atomic interactions

We show that an ensemble of two-level atoms commonly coupled to a single, driven, damped high-$Q$ cavity mode could be cooled and trapped via the correlated dynamics of cavity field and the atomic motion. For sufficiently large detuning between the atoms and the field, spontaneous emission plays no role in the dynamics, and the cooling scheme can be applied to all particles with a sufficient optical dipole moment. The time scale of this collective cooling process increases with the particle number and can be optimized by suitably tailoring the pump field amplitude and frequency. The key properties of the underlying mechanism are discussed using a linearized model, where one can derive a closed set of equations for certain ensemble averages and the field. The results are then compared with N-particle dynamical simulations of the full equations.