Trajectory Analyses of Electron Transport Properties under Anisotropy in Elastic and Inelastic Scatterings
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概要
- 論文の詳細を見る
Electron transport properties in gases, suffering anisotropic scatterings, elastic and inelastic, have been precisely calculated using the Extended FTI method and the Monte-Carlo simulation. Not only the transverse diffusion coefficient which changes with anisotropy in the elastic scattering, the mean energy and the drift velocity have also been found to vary with the degree of anisotropy in the inelastic scatterings. Therefore, it has been understood that the procedures of the Boltzmann equation analyses being currently used to obtain the electron transport properties are strictly valid only under complete isotropy in scatterings.
- 社団法人日本物理学会の論文
- 1994-07-15
著者
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YAMAMOTO Kohji
Shikoku University
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Yokoyama Ryuichi
Tokushima University
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Ikuta Nobuaki
Tokushima University
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Ikuta N
Chiba Institute Of Technology
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Gotoda Hiroaki
Tokushima University
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- Validity of Pseudo-Isotropic Analysis of Electron Transport Using the Momentum Transfer Cross Section
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- A Rigorous Monte-Carlo Simulation Procedure for Ion Transport Properties in Thermal Gases
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- FFT Monte-Carlo Simulation of Electron Transport Properties with the Cross Section of CF_4
- Comparative Calculation of Electron Transport Properties in Anisotropic Ramp Model Gas of Reid by Monte-Carlo Simulation
- Reduced Mobility Curves of Ions with a Hump
- Effects of Model Anisotropies in Elastic and Inelastic Scatterings on the Electron Transport Properties in CF 4
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