Spatially Resolved Electron Swarm Behavior in Steady State Townsend Condition : Elementary Particles and Fields
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概要
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Spatially resolved electron transport properties in steady state (SST) under the uniform electric field are investigated. It is found that the balance of local energy gain and loss always holds by taking into account the divergence of the energy flow, that is, the energy conservation law and the continuity equation of the energy flow for an electron swarm are affirmed to hold with the numerical data. Further, the features of the electron flux and the energy flow, the effects of ionization, excitation and attachment on the formation of the energy distribution, the condition forming the equilibrium and non-equilibrium regions in conservative and non-conservative cases for the electron number due to ionization and attachment etc. are discussed in detail.
- 社団法人日本物理学会の論文
- 2001-03-15
著者
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IKUTA Nobuaki
Chiba Institute of Technology,Tsudanuma,
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Ikuta Nobuaki
Chiba Institute Of Technology
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TAKEDA Akihide
Junior College of Shikoku University
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- 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
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