Direct Statistical Monte Carlo Simulation of Argon Radiation Behind the Front of a Strong Shock Wave
We describe a technique for modeling the excitation of electronic levels, bremsstrahlung, and photoionization in the Monte Carlo method of direct statistical simulation. The simulation results are compared with known experimental and numerical data.
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Veröffentlicht in: | Fluid dynamics 2023-08, Vol.58 (4), p.759-772 |
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creator | Kusov, A. L. Levashov, V. Yu Gerasimov, G. Ya Kozlov, P. V. Bykova, N. G. Zabelinsky, I. E. |
description | We describe a technique for modeling the excitation of electronic levels, bremsstrahlung, and photoionization in the Monte Carlo method of direct statistical simulation. The simulation results are compared with known experimental and numerical data. |
doi_str_mv | 10.1134/S0015462823600918 |
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subjects | Analysis Argon Bremsstrahlung Classical and Continuum Physics Classical Mechanics Engineering Fluid Dynamics Fluid- and Aerodynamics Monte Carlo method Monte Carlo simulation Photoionization Physics Physics and Astronomy Radiation Simulation methods |
title | Direct Statistical Monte Carlo Simulation of Argon Radiation Behind the Front of a Strong Shock Wave |
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