LASER COOLING DYNAMICS OF NEUTRAL ATOMS IN A LIGHT FIELD WITH NONUNIFORM POLARIZATION FOR FIXED INTERACTION TIME

Laser cooling dynamics of neutral atoms with a closed optical transition Jg → Je in light fields with nonuniform polarization formed by counterpropagating waves with linear, circular or elliptical polarization was considered. For the case of finite interaction time of atoms with light field both mechanisms of Doppler and Sub-Doppler laser cooling affected on atoms in ensemble having different velocities were taken into account. We get qualitative relations on a base of numerical analysis in a frame of quasiclassical treatment of laser cooling. These relations allow to define optimal parameters of cooling waves, i.e. polarization, detuning from atomic resonance and intensity of light waves for the most rapid and dip laser cooling from initially wide momentum distribution for finite interaction time of atoms with laser field.

Keywords:
laser cooling, kinetics of neutral atoms. 
УДК 537.9

LASER COOLING DYNAMICS OF NEUTRAL ATOMS IN A LIGHT FIELD WITH NONUNIFORM POLARIZATION FOR FIXED INTERACTION TIME