Abstract

An atomic frequency standard based on a fountain of cold cesium atoms has been in operation in our laboratory for a few months. Ramsey fringes as narrow as 0.7 Hz have been obtained. The short-term frequency stability, measured against an H-maser, is 3 10/sup -13/ /spl tau//sup -1/2/, probably limited by the local oscillator frequency noise. A preliminary evaluation of some systematic effects shows that cold collisions will be the limiting effect for long-term stability and accuracy. Measurements of this shift presented here, using a magnetooptical trap, show that at low density an uncertainty of about 10/sup 15/ is obtained. Under these conditions, the number of atoms is large enough to allow a potential stability of 10/sup -13/ /spl tau//sup -1/2/ to be reached. When optical molasses is used, the initial density is lower and collisional effects are reduced by a factor of three.< <ETX xmlns:mml="http://www.w3.org/1998/Math/MathML" xmlns:xlink="http://www.w3.org/1999/xlink">&gt;</ETX>