High Brightness Metal Vapor Lasers - Physics and Applications

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This work presents the physics and applications of high-power laser radiation on self-contained transitions in metal atoms. High brightness metal vapour lasers are considered the most powerful in the visible spectral range among all existing laser types.It includes material by highly regarded scientists previously unavailable to western scientists.

List of contents

Lasers on vapours of chemical compounds of metals. High pulse repetition frequency lasers on metal vapor and their halogens. Metal vapor lasers excited by electron beams. Characteristics of stimulated emission lasers on self-terminating transitions of metal atoms. Ways to improve the spatial characteristics of the laser radiation. Copper vapor amplifiers with high peak power. Conversion of CVL radiation in the ultraviolet. Physical basis of transfer of pulse mode lasing on self-terminating transitions into continuous (collision) oscillation mode. Studies on the generation in collision mode on self-terminating transitions atoms and metal ions. Continuous wave capillary lasers on self-terminating transitions of metal atoms. Some additional ways to get the cw lasing in a copper vapor. Applications.

Summary

This work presents the physics and applications of high-power laser radiation on self-contained transitions in metal atoms. High brightness metal vapour lasers are considered the most powerful in the visible spectral range among all existing laser types.It includes material by highly regarded scientists previously unavailable to western scientists.