HIGH-RESOLUTION DIODE-LASER SPECTROSCOPY ON A FAST BEAM OF METASTABLEATOMS FOR DETECTING VERY RARE KRYPTON ISOTOPES

A fast krypton ion beam with an energy of 10 keV is transferred throug h a mass filter and neutralized in a Rb- (or Cs-) vapour charge exchan ge cell. The emerging beam of metastable Kr atoms of a selected Kr iso tope is collinearly irradiated with a tunable cw GaAlAs diode laser at 811 nm. The spectrum of the 1s(5)-2p(9) transition covers similar to 10 GHz and consists of one line each for the five stable isotopes of K r with even mass number and 15 hyperfine structure lines of Kr-83. The individual lines are recorded by detecting the fluorescence signal pe rpendicular to the beams. Photons are guided to the PM tube by diffuse reflection from a high reflectance thermoplastics light collector. Up to 20 photons per atom are emitted by cycling between the two states during the flight time of 1.2 mu s through the detector. The observed absorption linewidth of 100 MHz is a combination of laser linewidth an d energy uncertainty in the fast atomic beam. In order to achieve maxi mum isotope selectivity the beam energy has to be adjusted in such a w ay that the Doppler shifted lines of all isotopes form an optimum patt ern for detecting the very rare isotopes Kr-81 and Kr-85 in natural en vironmental samples.