Measurement of the number of cold atoms trapped in cesium magneto-optical trap via probe absorption;

Temperature measurement of cold atoms in a cesium magneto-optical trap by means of short-distance time-of-flight absorption spectrum;

The schemes to produce cold or ultracold atomic beams by laser cooling (Doppler, sub-Doppler and sub-recoil cooling) and magneto-optical trapping technique are introduced in detail, and the applications of cold or ultracold atomic beams in the studies of basic physical problems and atom optics are briefly introduced.

We have established a cesium double magneto-optical trap(double MOT) system,and realized transferring cold atoms from the vapor-cell MOT to the ultra-high-vacuum(UHV) MOT by continuous transfer laser.

Usually the magneto\|optical trap(MOT)is used to obtain the cold atoms from the vapor.

This thesis simply reviews the progress of laser cooling and trapping of neutral atoms, and recounts the progress of building our MOT and trapping Rubidium atoms particularly.

The Rb87 atom in the vacuum is cooled and trapped by a 3D MOT,then a atomic cloud is formed.

In this paper, we put forward an integrated treatment of critical temperature for atoms constraining in the trap of magnetic and light when these atoms come on Bose-condensation, and obtain their thermodynamic properties varying with the space dimensional.