Title :
The LHA 2D magneto-optical trap: on the way to a continuous beam of cold atoms
Author :
Aucouturier, Eve ; Dimarcq, Noël ; Petit, Pierre ; Valentin, Constance ; Weyers, Stefan
Author_Institution :
Lab. de l´´Horloge Atomique, CNRS, Orsay, France
Abstract :
A continuous beam of cold atoms is considered as an alternative to improve the performance of caesium frequency standards. A two-dimensional magneto-optical trap (2D MOT) is outlined. The assembling of three counter-propagating circularly polarised laser beams and of two magnetic field gradients along the horizontal axes leads to a transverse cooling and trapping, whereas in the vertical z-direction the atoms are only cooled and not trapped because of the zero magnetic field in this direction. In order to predict the characteristics of the beam of cold atoms, a simulation of the atomic trajectories was carried out by using a two-dimensional model of Doppler cooling and magneto-optical trapping. The velocity distribution of the atoms, which, due to the trapping and cooling process, enter the zone, where they are launched, is calculated
Keywords :
atomic clocks; 1D moving molasses; 2D magneto-optical trap; Cs; Doppler cooling; angular dispersion; atomic clocks; atomic trajectories; cold atoms; continuous beam; counter-propagating circularly polarised laser beams; detuning; horizontal axes; magnetic field gradients; simulation; transverse cooling; trapping; velocity distribution; vertical laser beams; vertical z-direction; zero magnetic field;
Conference_Titel :
European Frequency and Time Forum, 1996. EFTF 96., Tenth (IEE Conf. Publ. 418)
Conference_Location :
Brighton
Print_ISBN :
0-85296-661-X
DOI :
10.1049/cp:19960051
