Результаты исследований: Научные публикации в периодических изданиях › статья › Рецензирование
Jumps and bi-stabilities in electron energy distribution in Ar-N-2 post discharge plasma. / Dyatko, NA; Ionikh, YZ; Kolokolov, NB; Meshchanov, AV; Napartovich, AP.
в: Journal Physics D: Applied Physics, Том 33, № 16, 21.08.2000, стр. 2010-2018.Результаты исследований: Научные публикации в периодических изданиях › статья › Рецензирование
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TY - JOUR
T1 - Jumps and bi-stabilities in electron energy distribution in Ar-N-2 post discharge plasma
AU - Dyatko, NA
AU - Ionikh, YZ
AU - Kolokolov, NB
AU - Meshchanov, AV
AU - Napartovich, AP
PY - 2000/8/21
Y1 - 2000/8/21
N2 - The electron energy distribution function (EEDF) in an afterglow of a pulsed direct current discharge has been measured in an Ar:N-2 mixture by means of a time-resolved Langmuir probe technique. The vibrational temperature, T-nu, of N-2 molecules has also been experimentally estimated. The results show that a correlation between an effective electron temperature, T-e, and T-nu strongly varies with experimental conditions. In particular the conditions exist under which the rapid decrease from high to low T-e values is observed at some moment after the discharge pulse, while the vibrational temperature remains almost constant.The theoretical study of the EEDF in Ar:N-2 afterglow plasma has also been made by the numerical solution of an appropriate Boltzmann equation by taking into account electron-electron collisions as well as superelastic vibrational and superelastic electronic collisions. Calculations show that for a given T-nu the value of T-e depends on the electron concentration, n(e). Moreover, the ranges of n(e) and T-nu exist, where two different solutions of Boltzmann equations can be obtained.Finally, the comparison of the theoretical and experimental results is performed and an explanation of the experimentally observed phenomenon is given.
AB - The electron energy distribution function (EEDF) in an afterglow of a pulsed direct current discharge has been measured in an Ar:N-2 mixture by means of a time-resolved Langmuir probe technique. The vibrational temperature, T-nu, of N-2 molecules has also been experimentally estimated. The results show that a correlation between an effective electron temperature, T-e, and T-nu strongly varies with experimental conditions. In particular the conditions exist under which the rapid decrease from high to low T-e values is observed at some moment after the discharge pulse, while the vibrational temperature remains almost constant.The theoretical study of the EEDF in Ar:N-2 afterglow plasma has also been made by the numerical solution of an appropriate Boltzmann equation by taking into account electron-electron collisions as well as superelastic vibrational and superelastic electronic collisions. Calculations show that for a given T-nu the value of T-e depends on the electron concentration, n(e). Moreover, the ranges of n(e) and T-nu exist, where two different solutions of Boltzmann equations can be obtained.Finally, the comparison of the theoretical and experimental results is performed and an explanation of the experimentally observed phenomenon is given.
KW - NITROGEN AFTERGLOW PLASMA
KW - RATE CONSTANTS
U2 - 10.1088/0022-3727/33/16/313
DO - 10.1088/0022-3727/33/16/313
M3 - статья
VL - 33
SP - 2010
EP - 2018
JO - Journal Physics D: Applied Physics
JF - Journal Physics D: Applied Physics
SN - 0022-3727
IS - 16
ER -
ID: 42180847