Diffusion tensor of electron swarm in electric field in gases. II. The influence of the conservative inelastic collisions

T. Makabe; M. Shimoyama

doi:10.1088/0022-3727/19/12/010

Diffusion tensor of electron swarm in electric field in gases. II. The influence of the conservative inelastic collisions

T. Makabe, M. Shimoyama

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Abstract

For pt.I see ibid., vol.17, p.699 (1984). An investigation of the deep structure of the electron diffusion tensor D in an isolated swarm has been developed from the Boltzmann equation as applied to the electron conservative case including inelastic collisions. It is shown that D consists of three components. They are the weighted ensemble average in the velocity space, and the two-additional terms which represent both the curvature effect due to the electric field and the scattering effect at collision. Numerical calculations in Ar have been executed to emphasise the importance of the last two terms. A difference of over 5% appears between the transverse diffusion coefficient D_T and the conventional expression D_V with E/N subject purely to elastic collisions due to the curvature effect. As is expected, the discrepancy between D_T and D_V grows with E/N where the recycling effect due to the excitation-energy barrier is included.

Original language	English
Article number	010
Pages (from-to)	2301-2308
Number of pages	8
Journal	Journal of Physics D: Applied Physics
Volume	19
Issue number	12
DOIs	https://doi.org/10.1088/0022-3727/19/12/010
Publication status	Published - 1986 Dec 1

ASJC Scopus subject areas

Electronic, Optical and Magnetic Materials
Condensed Matter Physics
Acoustics and Ultrasonics
Surfaces, Coatings and Films

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10.1088/0022-3727/19/12/010

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N2 - For pt.I see ibid., vol.17, p.699 (1984). An investigation of the deep structure of the electron diffusion tensor D in an isolated swarm has been developed from the Boltzmann equation as applied to the electron conservative case including inelastic collisions. It is shown that D consists of three components. They are the weighted ensemble average in the velocity space, and the two-additional terms which represent both the curvature effect due to the electric field and the scattering effect at collision. Numerical calculations in Ar have been executed to emphasise the importance of the last two terms. A difference of over 5% appears between the transverse diffusion coefficient DT and the conventional expression DV with E/N subject purely to elastic collisions due to the curvature effect. As is expected, the discrepancy between DT and DV grows with E/N where the recycling effect due to the excitation-energy barrier is included.

AB - For pt.I see ibid., vol.17, p.699 (1984). An investigation of the deep structure of the electron diffusion tensor D in an isolated swarm has been developed from the Boltzmann equation as applied to the electron conservative case including inelastic collisions. It is shown that D consists of three components. They are the weighted ensemble average in the velocity space, and the two-additional terms which represent both the curvature effect due to the electric field and the scattering effect at collision. Numerical calculations in Ar have been executed to emphasise the importance of the last two terms. A difference of over 5% appears between the transverse diffusion coefficient DT and the conventional expression DV with E/N subject purely to elastic collisions due to the curvature effect. As is expected, the discrepancy between DT and DV grows with E/N where the recycling effect due to the excitation-energy barrier is included.

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Diffusion tensor of electron swarm in electric field in gases. II. The influence of the conservative inelastic collisions

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