A.M. Koushki scite author profile

A.M. Koushki

4Publications

30Citation Statements Received

81Citation Statements Given

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Affiliations

Iranian Center for Quantum Technologies, Atomic Energy Organization of Iran, University of Kashan

Publications

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Simulation and initial experiments of a high power pulsed TEA CO₂laser

et al. 2015

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In this paper, the output characteristics of a UV pin array pre-ionized TEA CO 2 laser have been simulated and compared with the associated experimental data. In our simulation, a new theoretical model has been improved for transient behavior analysis of the discharge current pulse. The laser discharge tube was modeled by a nonlinear RLC electric circuit as a real model for electron density calculation. This model was coupled with a six-temperature model (6TM) in order to simulation dynamic emission processes of the TEA CO 2 laser. The equations were solved numerically by the fourth order Runge-Kutta numerical method and some important variables such as current and voltage of the main discharge, resistance of the plasma column and electron density in the main discharge region, were calculated as functions of time. The effects of non-dissociation factor, rotational quantum number and output coupler reflectivity were also studied theoretically. The experimental and simulation results are in good agreement.

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Theoretical and experimental analyses of the TEA CO2 lasers dynamics by six temperature vibrational-rotational model

Torabi

Saghafifar

Koushki

2017

Optik

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Ionization dynamics of orbitals and high-harmonic generation of N 2 and CO molecules at the various XC potentials by TD-DFT

Koushki

Mohsen-Nia

Sadighi‐Bonabi

et al. 2016

Computational and Theoretical Chemistry

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Kinetic modeling of a slow flow CW CO2 laser

2011

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A kinetic model for analysis of the slow-flow CW-discharge CO 2 laser with diffusion cooling has been developed in which the gas temperature is obtained from energy balance equations. The method is based on the numerical solution of a set of nonlinear differential equations for vibrational kinetics. The numerical predictions from the model are compared with some experimental results and a good agreement is obtained.

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A.M. Koushki

Simulation and initial experiments of a high power pulsed TEA CO₂laser

Theoretical and experimental analyses of the TEA CO2 lasers dynamics by six temperature vibrational-rotational model

Ionization dynamics of orbitals and high-harmonic generation of N 2 and CO molecules at the various XC potentials by TD-DFT

Kinetic modeling of a slow flow CW CO2 laser

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A.M. Koushki

Simulation and initial experiments of a high power pulsed TEA CO2laser

Theoretical and experimental analyses of the TEA CO2 lasers dynamics by six temperature vibrational-rotational model

Ionization dynamics of orbitals and high-harmonic generation of N 2 and CO molecules at the various XC potentials by TD-DFT

Kinetic modeling of a slow flow CW CO2 laser

Contact Info

Product

Resources

About

Simulation and initial experiments of a high power pulsed TEA CO₂laser