Kinetic modeling and optimum design of the discharge tube for the CO₂ laser with computational fluid dynamics method

Abstract: The performance of a high-power fast-axial-flow CO 2 laser is directly determined by the characteristics of the turbulent flow of the active medium in the discharge region. To research the influence of the discharge tube structure on the internal gas flow field and determine the optimum design of the discharge tube, we use the computational fluid dynamics method and a set of governing equations to predict and compare the internal gas flow field of various sizes of discharge tubes. The influence of the tube dia… Show more

“…High energy transversely excited atmospheric pressure (TEA) CO 2 lasers play an important role in many scientific, industrial and military applications [1,2]. Many programs have so far been written for simulation of the dynamic emission in such lasers in order to understand their physics and prediction of the output characteristics [3][4][5][6][7][8][9][10][11]. Different theoretical models such as four-, five-, and six-temperature models (6TM) are used to describe the kinetic processes of these types of lasers.…”

Simulation and initial experiments of a high power pulsed TEA CO₂laser

“…High energy transversely excited atmospheric pressure (TEA) CO 2 lasers play an important role in many scientific, industrial and military applications [1,2]. Many programs have so far been written for simulation of the dynamic emission in such lasers in order to understand their physics and prediction of the output characteristics [3][4][5][6][7][8][9][10][11]. Different theoretical models such as four-, five-, and six-temperature models (6TM) are used to describe the kinetic processes of these types of lasers.…”

Simulation and initial experiments of a high power pulsed TEA CO₂laser

Kinetic modeling of a slow flow CW CO2 laser

Theoretical and experimental study of nanosecond pulse amplification in a CW CO2 amplifier