Third-order transport coefficients for electrons in N-2 and CF4: Effects of non-conservative collisions, concurrence with diffusion coefficients and contribution to the spatial profile of the swarm

Simonović, I., Bošnjaković, D., Petrović, Z.Lj, White, R.D., and Dujko, S. (2022) Third-order transport coefficients for electrons in N-2 and CF4: Effects of non-conservative collisions, concurrence with diffusion coefficients and contribution to the spatial profile of the swarm. Plasma Sources Science and Technology, 31 (1). 015003.

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Abstract

Using a multi-term solution of the Boltzmann equation and Monte Carlo simulation technique we study behaviour of the third-order transport coefficients for electrons in model gases, including the ionisation model of Lucas and Saelee and modified Ness-Robson model of electron attachment, and in real gases, including N2 and CF4. We observe negative values in the E/n 0-profiles of the longitudinal and transverse third-order transport coefficients for electrons in CF4 (where E is the electric field and n 0 is the gas number density). While negative values of the longitudinal third-order transport coefficients are caused by the presence of rapidly increasing cross sections for vibrational excitations of CF4, the transverse third-order transport coefficient becomes negative over the E/n 0-values after the occurrence of negative differential conductivity. The discrepancy between the two-term approximation and the full multi-term solution of the Boltzmann equation is investigated for electrons in N2 and CF4. While the accuracy of the two-term approximation is sufficient to investigate the behaviour of the third-order transport coefficients in N2, it produces large errors and is not even qualitatively correct for electrons in CF4. The influence of implicit and explicit effects of electron attachment and ionisation on the third-order transport tensor is investigated. In particular, we discuss the effects of attachment heating and attachment cooling on the third-order transport coefficients for electrons in the modified Ness-Robson model, while the effects of ionisation are studied for electrons in the ionisation model of Lucas and Saelee, N2 and CF4. The concurrence between the third-order transport coefficients and the components of the diffusion tensor, and the contribution of the longitudinal component of the third-order transport tensor to the spatial profile of the swarm are also investigated. For electrons in CF4 and CH4, we found that the contribution of the component of the third-order transport tensor to the spatial profile of the swarm between approximately 50 Td and 700 Td, is almost identical to the corresponding contribution for electrons in N2. This suggests that the recent measurements of third-order transport coefficients for electrons in N2 may be extended and generalized to other gases, such as CF4 and CH4.

Item ID: 74767
Item Type: Article (Research - C1)
ISSN: 1361-6595
Keywords: Boltzmann equation, electron attachment, electron transport, ionization, Monte Carlo simulation, third-order transport coefficients
Copyright Information: © 2022 IOP Publishing Ltd
Date Deposited: 18 Apr 2023 02:10
FoR Codes: 51 PHYSICAL SCIENCES > 5106 Nuclear and plasma physics > 510602 Plasma physics; fusion plasmas; electrical discharges @ 100%
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