Variation of Electron Transport Properties Near NDC Region and the Effects of Anisotropic Scattering
スポンサーリンク
概要
- 論文の詳細を見る
Blectron tr;tnsjcort proper'ties near' rtegatix'e di[ferenti?tl condvrctivity (NDC) region are inxzes-tigated trsitag lN4otute-Cstrlo siraatrlsrtiora. T1?e excitatiort co[Iisiotas that freqttently OCCULT xvit1?in al13Tl'OXX' I'2111g(l) of' r'edtrced electric field gix'e 21 ICll1l2lIl{211)IC enla?traceuaaetut of tlae drift xvelocity, ?rtadtlae NDC is obserxxed ita tlae laiglaer field ratuge xxvitla tlae dect'e;tse of flue dr'it't x'elocit')z loack to nor-111211. NDC is naaerel3r 21 side efl'ect of' the dri['t N ' elocity eta[uarnceznetat lctrt c;trataot toe seen in itself',Tl'ne ef['ects of' elastic azad inelatstic ?'tzai,sotrojoic sc?rtteritags 014 tlte electron transport joropertiess'tre also ex;tr??ined.
- 社団法人日本物理学会の論文
- 1999-08-15
著者
-
Yamamoto K
Shikoku University
-
YAMAMOTO Kohji
Shikoku University
-
IKUTA Nobuaki
Chiba Institute of Technology,Tsudanuma,
-
Ikuta Nobuaki
Chiba Institute Of Technology
-
Ikuta Nobuaki
Chiba Institute Of Technology Tsudanuma
関連論文
- Variation of Electron Transport Properties Near NDC Region and the Effects of Anisotropic Scattering
- Ionization Coefficient in Gases under Nonuniform Electric Fields
- Virtual Drift Velocity of Electrons (Condensed Matter : Structure, Mechanical and Thermal Properties)
- Trajectory Analyses of Electron Transport Properties under Anisotropy in Elastic and Inelastic Scatterings
- Novel Method for Ion Drift Velocity Measurement Using Frequency Response Analysis
- Separation of Townsend Secondary Electron Emission Coefficients by Frequency Response Analysis
- A New Method for Electron Drift Velocity Measurement Using Frequency Response Analysis
- Spatially Resolved Electron Swarm Behavior in Steady State Townsend Condition : Elementary Particles and Fields
- Relaxation Properties of the Velocity Distribution of Gas Particles and the Variation of H Function : Atoms and Molecules
- Separation of Townsend Secondary Electron Emission Coefficients by Frequency Response Analysis
- A Rigorous Monte-Carlo Simulation Procedure for Ion Transport Properties in 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
- Effects of Anisotropic Scattering on the Drift Velocity Maximum