Model of the radial gas-temperature distribution in a copper bromide vapour laser

“…During the last few years, alongside the experimental development of this laser, new results were obtained using analytical and numerical methods [4][5][6]. Moreover, based on the large number of accumulated experiment data, statistical models were developed [7][8][9].…”

Second degree model of laser efficiency of a copper bromide laser

“…During the last few years, alongside the experimental development of this laser, new results were obtained using analytical and numerical methods [4][5][6]. Moreover, based on the large number of accumulated experiment data, statistical models were developed [7][8][9].…”

Second degree model of laser efficiency of a copper bromide laser

“…Critical review on these approaches was given in [11]. To resolve this problem, during the last few years, in [12][13][14][15][16][17] new analytical models have been developed in order to improve Kushner's model from 1983 [6], widely used up until now for evaluating radial gas temperature in metal vapor lasers. The new models are based on analytic solutions of the steady-state heat conduction equation with the arbitrary form of the volume power density, subject to special nonlinear boundary conditions on the composite tube walls.…”

Numerical study of gas temperature distribution in a copper bromide laser active medium

Study on the maximum electric power supplied to copper bromide vapor lasers