Velocity Distribution Function of Electrons Trapped in the Electrostatic Potential Hill of a Magnetic Mirror
スポンサーリンク
概要
- 論文の詳細を見る
The velocity distribution function of electrons created by ionization in a magnetic mirror is determined analytically. It is assumed that electrons trapped in the electrostatic hill of the mirror are controlled principally by externally injected microwave radiation and the axial and radial transport processes. A relationship between the height of the electrostatic potential hill and the density of trapped electrons is derived.
- 社団法人日本物理学会の論文
- 1993-04-15
著者
-
KATANUMA Isao
Plasma Research Center, University of Tsukuba, Tsukuba 305-8577, Japan
-
Katanuma Isao
Plasma Research Center The University Of Tsukuba
-
Tataronis A.
Department of Electrical and Computer Engineering, University of Wisconsin
-
Tataronis A.
Department Of Electrical And Computer Engineering University Of Wisconsin
-
Tataronis John
Department of Electrical and Computer Engineering, University of Wisconsin
関連論文
- Flute Mode Turbulence and Related Transport in the Divertor of a Mirror
- Observation of Ion Confining Potential Enhancement due to Thermal Barrier Potential Formation and Its Scaling Law in the Tandem Mirror GAMMA 10
- Potential Linkage between the Plug Region and an End Plate in GAMMA 10
- Investigation of Edge Plasmas in the Anchor Cell Region of GAMMA 10 : Fluids, Plasmas, and Electric Discharges
- Effect of the Collision Frequency on the Ion Temperature Determined from Ion Endloss Spektrum
- 26aA16P Study on Distributed Divertor Configuration in a Mirror Cell
- 27pB06P Study on Anchor-cell Plasma Properties of the GAMMA10 Tandem Mirror
- タンデムミラ-GAMMA 10 によるプラズマ閉じ込め
- Generation of the Saturated Field-Aligned Potential and Its Role for the Equipartition of Energy in Collisionless Magnetoplasmas
- Simulation Study on Sloshing Ion Formation and Sustainment of Associated Potential Dip in a Plug Cell of GAMMA 6
- Velocity Distribution Function of Electrons Trapped in the Electrostatic Potential Hill of a Magnetic Mirror
- Calculation of Ballooning Mode Stability Boundary in the GAMMA10 Tandem Mirror : Nuclear Science, Plasmas, Electric Dischanges
- Measurement of End Loss Electrons and Ions from a Hot Ion Plasma in a Tandem Mirror
- Ideal Ballooning Modes in the GAMMA10 Tandem Mirror : Fluids, Plasmas, and Electric Discharges
- Monte Carlo Simulation on Ion Axial Confinement and End-Loss Spectrum in the GAMMA10 Tandem Mirror
- End-loss Ion Analysis Using an End-Loss Energy Component Analyzer in the Tandem Mirror
- On the Electrostatic Potential Profile Determined from Ion Endloss Spectrum
- Monotonic Electrostatic Potential Profile around Plug Region of a Tandem Mirror
- New Type of End-Loss Energy Component Analyzer and Velocity Distribution Function of End-Loss Ions in Tandem Mirror
- Continuity of Electrostatic Potential around Magnetic Mirror Throat
- Electron Confining Potential When the Electrons Have Finite Axial Loss Time
- Temperature Anisotropy Measurement Using Diamagnetic Loop Array
- Electrostatic Potential in the Endcells of a Tandem Mirror under Electron Cyclotron Resonance Heating
- Velocity-Space Diffusion of Wave-Heated Electrons in a Mirror Field
- Calculation of Diamagnetic Current in a Quadrupole Minimum B Mirror Field
- NUMERICAL BGK-SOLUTIONS OF LARGE SCALE ELECTROSTATIC POTENTIAL IN AURORAL PLASMAS
- Numerical Simulation of Neutral Beam Injection in the GAMMA10 Anchor Cell
- Numerical Simulation on the Flute Instabilities in the GAMMA10 Magnetic Field
- Role of Flute Modes in the GAMMA10 Tandem Mirror
- Study of Fluctuation Suppression during Potential Formation in the Tandem Mirror GAMMA 10
- Ion Transport in Real and Velocity Space and Confinement in the GAMMA 10 Tandem Mirror
- 29aC27P GAMMA10磁場中における粒子の写像方程式を用いた拡散の研究(ミラー他)
- The Stability of Flute Modes in the GAMMA10 A-divertor
- Numerical Simulation of Neutral Beam Injection in the GAMMA10 Anchor Cell
- Density Fluctuation Measurement for Studying the Effect of Potential and Electric Field Formation in GAMMA 10