LAUSR

The problems of introducing automation into experimental studies required for the development of an atomic vapor laser isotope separation method are considered. The investigations are carried out at a facility consisting of a vacuum module and a set of wavelength-tunable dye lasers pumped with copper vapor lasers. The vacuum module contains an atomic beam source, a quadrupole mass spectrometer, and a luminescence detection system. The approaches used to stabilize the laser wavelength and to scan the laser wavelength with the simultaneous recording of the mass-spectrometer and luminescence signals in strong high-frequency electromagnetic fields accompanying the operation of copper vapor lasers are also considered. Examples of experimental results are presented.