Unified Theory of the Electron Temperature in Positive Columns
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概要
- 論文の詳細を見る
The electron temperature was calculated by renewed theory in the cylindrical positive column using the boundary velocity of charged particles defined by Friedman, et al. This theory is extended to cases involving the effect of metastable atoms' ionization and of a binarymixtured gas. The electron temperature calculated based upon this theory give characteristics valid from lower to higher pressure ranges. For example, the calculations were carried out for Ne and He gases, which results may be useful for an investigation of the He-Ne laser plasmas.
- 社団法人日本物理学会の論文
- 1976-04-15
著者
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DOTE Toshihiko
The Institute of Physical and Chemical Research
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Ichikawa Yukimi
The Institute Of Physical And Chemical Research:department Of Electrical Engineering Musashino Insti
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Ichikawa Yukimi
The Institute Of Physical And Chemical Research:tokyo Electrical Engineering College
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Dote Toshihiko
The Institate Of Phyiscal Chemical Research
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- Quasi-Steady Laser Oscillation in the Recombining Hydrogen Plasma
- Observation of Population Inversions in a Freely Expanding Pure Hydrogen Plasma
- Frequency Dependence of the RF Electric Field Effect on He-Ne Laser Output
- The Cumulative Ionization Effect in a 1.15 μm He-Ne Laser
- Experiments on Current Change with the Interruption of the laser beam
- Unified Electron Temperature Characteristics in Positive Columns with the Volume Recombination
- Unified Theory of the Electron Temperature in Positive Columns
- A General Solution of Electron Velocity in the Steady-State Pre-Breakdown Region
- Unified Electron Temperature Characteristics in Positive Columns with Including the Ionization of Metastable Atoms
- Swarm Analysis by Using Transport Equations. III. : Steady-State Swarm Behavior of Positive Ions in a Uniform Medium
- Space-Charge Conduction of Cylindrical and Spherical Gas Diodes in Higher-Pressure
- A Modified Theory of the Floating Double Probe and a Renewed Method for Determining the Plasma Electron Temperature
- Measurements of the Electron Energy Distribution in an RF Superposed-He-Ne Laser Tube
- Swarm Analysis by Using Transport Equations. I. : Steady-State Swarm Behavior of Electrons in a Uniform Medium
- Swarm Analysis by Using Transport Equations. II. Theoretical Estimation of Average Energy Loss Factor of Electrons
- Estimations of the Number of Metastable Atoms and the Ionization of Metastable Atoms in a Positive Column
- Remarks on the Collision Loss Factor of Electrons
- Swarm Analysis by Using Transport Equations.VI.Ambipolar Flow of Charged Particles in a Quasi-Neutral Positive Column
- Swarm Analysis by Using Transport Equations.V.Radial Distriburion of the Gas Temperature in the Positive Column of a Glow Discharge
- Swarm Analysis by Using Transport Equations.IV.A Quasi-Neutral Theory of the Positive Column of a Glow Discharge
- Steady-State Solutions of Pre-Breakdown Current Including the Diffusion Effect
- Swarm Analysis by Using Transport Equations.VII.fluid Description of the Quasi-Neutral Collisionless Positive Column
- The Cumulative Ionization Effect on the Plasma Electron Temperature
- Space-Charge Conduction in High-Pressure Gas Diodes
- A Method for Determining the Plasma Space Potential by an RF Probe
- A Method for Determining the Collisionless Plasma Density by the Spherical Probe Measurement
- Space Charge Limited Equation in a Magnetic Field
- A Method for Determining the Plasma Density by a Cylindrical Probe at Medium Pressures
- Effect of a Disturbing Electrode on Plasma Electron Temperature : The Langmuir Paradox