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W2038182105 abstract "390005, RussiaABSTRACTAlgorithms were researched and evaluated for the active media chemical composition dynamic change in sealed-off pulsed-periodical ThA-C02 lasers. These algorithms include behavior of up to 64 charged and neutral compounds.Also reported are the results of simulation of the transition to a quasi-equilibrium state of basic neutral compounds (C02,co, 0, 02, 03, N2, N, NO, NO2, NO3, N20) in C02-laser mixtures of atmosphere pressure at the volume.discharge of energydensity W=O,1-O,5 J*cm3 excitation with the pulses repetition rate F=102-104 Hz.1. INTRODUCTIONThe change in chemical composition of sealed-off TEA-CO2 lasers active media by electrical discharge leads to substantialdecrease in the pulse irradiation power and in the pulses repetition rate [1,2]. These changes are bound up not only with thedecrease in the molecular CO2 concentration and with related pumping efficiency decrease but with the essential influenceon the spatial structure of the volume discharge by plasma-chemical reactions products [1-5]. The noted decrease in themolecular CO2 concentration is related to the molecule dissociation in the discharge plasma.Understanding of these interconnected phenomena and creating the sealed-off TEA-CO2 laser with stable parameters areconcerned with the study of dynamic behaviors of the composition of C02-laser mixtures of high pressure in the volumedischarge plasma. There is a lot of the secondary compounds in the discharge plasma. This circumstance and the limited'power ofexperimental methods make the direct study of the chemical composition change in ThA-C02 laser operates.With the purpose to obtain more detail information about the chemical composition transit to a quasi-steady state and aboutbehaviors of such slightly Studied compounds as ozone and nitrogen oxides, there was carried out the numerical integrationof differential equations sets of chemical kinetics applied to the TEA-CO2 lasers operation of the pulses repetition rate 1O2" @default.
W2038182105 created "2016-06-24" @default.
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W2038182105 date "1996-03-01" @default.
W2038182105 modified "2023-09-23" @default.
W2038182105 title "Numerical modeling of active media chemical composition dynamic change in sealed-off pulsed periodical TEA-CO 2 lasers" @default.
W2038182105 doi "https://doi.org/10.1117/12.234186" @default.
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