Abstract

A multistage narrow-band dye laser amplifying system with an output power of up to several kilowatts is considered as a whole. Such systems became necessary due to the development of the method of laser isotope separation (the AVLIS method). The use of the simplified model of an amplifying cell allowed us to solve analytically the equations describing the laser system and to determine optimal parameters of each stage. The dye laser system with an output power of 1 kW is optimised based on the model proposed. The accuracy of the obtained estimates was verified by a direct numerical simulation of the system based on a rigorous solution of the equations describing the interaction of radiation with the dye solution.

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