An atomic fountain guided by a far-off resonance light beam

Summary form only given. We report optical guiding of cold atoms in a free-propagating far-detuned laser beam. The atoms are initially cooled and collected in a magneto-optical trap (MOT), which typically contains over 10/sup 8/ atoms in a cigar shaped cloud with an aspect ratio of 4. Approximately 20% of these atoms are loaded into a far-detuned optical dipole beam aligned vertically through the MOT. The number loaded is limited primarily by geometrical overlap. Both guided and unguided atoms are launched with a velocity of 1.25 m/s and a temperature of 20 /spl mu/K. The guided beam is focused through a 1 mm aperture, 6 cm above the MOT, which connects the vapour cell to a UHV chamber. Atoms can be launched within the guide without heating and guided into a UHV chamber with 100% efficiency. In continuous operation, the scheme allows extraction of atoms from a MOT without loss of phase space density.