Nonlocal nature of the electron energy spectrum in a glow discharge in pure O2: I. Nonlocal character of the electron distribution function |
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Authors: | V V Ivanov K S Klopovskii D V Lopaev A T Rakhimov T V Rakhimova |
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Institution: | (1) Skobeltsyn Institute of Nuclear Physics, Moscow State University, Vorob'evy gory, Moscow, 119899, Russia |
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Abstract: | Abstrac A study is made of the nonlocal nature of the electron energy distribution function in the positive column of a glow discharge
in a tube filled with pure oxygen. The distribution function and the axial (E
z) and radial (E
r) electric fields as functions of radius are measured using an array of mobile probes. The experimentally obtained spatial
profiles of the distribution function are used to test the applicability of the two-term approximation to the distribution
function of the electrons with a nonlocal energy spectrum. The distribution function in a specified electric field E=E
z +E
r (where E
z ⊥ E
r) is calculated by solving the coordinate-dependent Boltzmann equation in the two-term approximation and by directly integrating
the equations of electron motion using the Monte Carlo method. A comparison between the experimental data and the results
of simulations carried out for a broad parameter range shows that, in the case of a highly nonlocal electron energy spectrum,
the two-term approximation makes it possible to calculate the electron distribution function with a fairly good accuracy,
in which case, however, in imposing the boundary conditions, the electron losses at the plasma surface should be treated in
the kinetic approximation. It is shown that using the reflection coefficient of the plasma surface for electrons instead of
the loss cone in space makes it possible to accurately calculate the electron energy distribution function over the entire
parameter range under consideration, including the transient region in which the electron-energy relaxation length is comparable
to the characteristic plasma dimension.
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Translated from Fizika Plazmy, Vol. 26, No. 11, 2000, pp. 1038–1045.
Original Russian Text Copyright ? 2000 by Ivanov, Klopovskii, Lopaev, Rakhimov, Rakhimova. |
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Keywords: | |
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