Abstract
PURPOSE:To increase the number of objects to be excited and that of atoms and to enhance separation efficiency by projecting a laser beam of wavelength which overlaps a plurality of absorptive lines of superfine structure existing at an electron excitation level for an isotope using a laser beam of variable wavelength. CONSTITUTION:Pumping laser beams 11, 12 are guided to a tunable laser 3 for excitation and tunable laser 4 for ionization set in such a manner that these lasers have a wavelength selected according to a separation scheme and a wavelength width and an output which correspond to a super-fine structure at an electron level selected according to the separation scheme. A synthesized laser beam 17 between a laser beam for excitation 13 and a laser beam for ionization 14 is guided to an isotope separation device 6. The laser beam 16 extracted by the isotope separation device 6 after separation work is guided to a laser measurement meter 21, and the output and waveform of the laser beam after separation of the isotope are measured.
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