FFT Monte-Carlo Simulation of Electron Transport Properties with the Cross Section of CF_4
スポンサーリンク
概要
- 論文の詳細を見る
The electron collision cross sections of CF_4 have very singuler forms with very high values of vibrational excitation cross sections in the region of Ramsauer minimum of momentum transfer cross section, and the electron transport properties show peculiar variations with E/N. There have been several reports on the electron swarm data in CF_4 and on the cross section data derived from the swarm data and of beam experiments. In our laboratory, some efforts have also been made using the FFT Monte-Carlo simulation accuratelly to calculate the electron transport properties in CF_4 and to obtain the collision cross sections well fit with the experimental swarm data. However, it has been recognized to be very difficult strictly to reproduce the peculiar transport properties. In this paper, the backgrounds of disagreements between the experimental and the calculated data with various cross section sets are discussed.
- 1994-06-15
著者
関連論文
- Variation of Electron Transport Properties Near NDC Region and the Effects of Anisotropic Scattering
- Transport Property of Electrons in Gases under Electric Field 1.Lateral Diffusion Coefficient
- Theory of FTI Method for the Analysis of Electron and Ion Transport Properties
- Novel Analyses of Ion Transport Properties with the FTI Method
- Boltzmann Equation Analyses for the Relaxation of Velocity Distribution of Neutrals with the Transient FTI Method
- Virtual Drift Velocity of Electrons (Condensed Matter : Structure, Mechanical and Thermal Properties)
- Variation of Ion Transport Properties under Electric Field with Mass Ratios
- Variation of Reduced Mobilities of Ions in Gases under 12-4 Potentials
- Ion Transport Properties in Model Gases Based on A・r^ Type Single Potentials
- Trajectory Analyses of Electron Transport Properties under Anisotropy in Elastic and Inelastic Scatterings
- Validity of Pseudo-Isotropic Analysis of Electron Transport Using the Momentum Transfer Cross Section
- Novel Method for Ion Drift Velocity Measurement Using Frequency Response Analysis
- A New Method for Electron Drift Velocity Measurement Using Frequency Response Analysis
- Frequency Response Analysis for the Secondary Electron Release by Metastables in Ionization Current Multiplication in N_2 Gas
- Effective Lifetimes of Diffusing Metastable Particles Affected by Reflection in a Cylindrical Cavity
- Loss Processes of N_2(A^3Σ^+_u) in N_2+CO Mixture Gases
- Comparison of Electron Diffusion Coefficients Defined in Velocity and Position Spaces D_V and D_T in CF_4
- Effects of Model Anisotropies in Elastic and Inelastic Scatterings on the Electron Transport Properties in CF_4
- Mobility Analysis of Electrons in CF_4 by FTI Method
- A Rigorous Monte-Carlo Simulation Procedure for Ion Transport Properties in Thermal Gases
- Cross Section Dependent Transport Properties of Thermal Gases
- 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
- Effects of Anisotropic Scattering on the Drift Velocity Maximum