To obtain the maximum output power of a fast-axial-flow CW-CO2 laser, gas flow velocity can be optimized by using genetic algorithms. Our theoretical approach shows that the gas flow velocity after optimization increases the laser output power substantially from 500W, obtained in our present system, to 2203W.
Koushki,A. and Jelvani,S. (2019). Optimization of gas flow velocity for maximum output of a fast-axial-flow CW CO2 laser using genetic algorithms. Iranian Journal of Physics Research, 10(3), 259-264.
MLA
Koushki,A. , and Jelvani,S. . "Optimization of gas flow velocity for maximum output of a fast-axial-flow CW CO2 laser using genetic algorithms", Iranian Journal of Physics Research, 10, 3, 2019, 259-264.
HARVARD
Koushki A., Jelvani S. (2019). 'Optimization of gas flow velocity for maximum output of a fast-axial-flow CW CO2 laser using genetic algorithms', Iranian Journal of Physics Research, 10(3), pp. 259-264.
CHICAGO
A. Koushki and S. Jelvani, "Optimization of gas flow velocity for maximum output of a fast-axial-flow CW CO2 laser using genetic algorithms," Iranian Journal of Physics Research, 10 3 (2019): 259-264,
VANCOUVER
Koushki A., Jelvani S. Optimization of gas flow velocity for maximum output of a fast-axial-flow CW CO2 laser using genetic algorithms. Dear user; Recently we have changed our software to Sinaweb. If you had already registered with the old site, you may use the same USERNAME but you need to change your password. To do so at the first use, please choose, 2019; 10(3): 259-264.
