End Stabilization Effect in the Slow Theta Pinch
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概要
- 論文の詳細を見る
The m = 1 mode of perturbation is artificially introduced by a parallel displacement of the driving field. The plasma is found to be stabilized against the m = 1 mode. The stabilizing effect is due to the plasma near and outside the mirror points which is frozen on outwardly concave lines of force; the effect is not the so-called line tying effect. Exclusion of the exterior plasma by glass plates results in this conclusion. An inclined glass plate pushed the plasma column toward the side of the obtuse angle between its surface and the field lines. A funnel shaped glass cone has a stabilizing effect.
- 社団法人日本物理学会の論文
- 1967-11-05
著者
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Miyamoto Tetsu
Department Of Physics And Atomic Energy Research Institute College Of Science And Engineering Nihon
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OHNISHI Haruyuki
Department of Physics and Atomic Energy Research Institute College of Science and Engineering Nihon
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Hamada Shigeo
Department Of Agricultural Chemistry Faculty Of Agriculture Tohoku University
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Miyamoto Tetsu
Department Of Physics And Atomic Energy Research Institute College Of Science And Engineering Nihon
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Ohnishi Haruyuki
Department Of Physics And Atomic Energy Research Institute College Of Science And Engineering Nihon
関連論文
- The Effects of the Multipole Field at the Initial Phase of the Theta Pinch
- End Stabilization Effects for Interchange Instabilities of Higher Modes
- The Effect of the Small Amplitude Ripple of Theta Pinch Field
- The Local Motion of the Slow Theta Pinch Plasma
- The Collision of Two Plasma Streams
- STUDIES ON THE UTILIZATION OF GRAPE PART I. COMPOSITION OF GRAPE JUICES
- Discharge at the Boundary Layer between High Pressure Gas and Vacuum
- Axial Behaviors and Confinement of the Plasma in the Mirror Field Theta Pinch
- Expansion and Thermalization of Plasma in a Non-Uniform Magnetic Channel
- Axial Motion and End Loss in the Slow Theta Pinch Plasma
- Ultra High Speed Spectrometer for Measurement of Spectral Line Profile
- Effects of Mutlipole Cusp Field to the Initial Plasma of Theta Pinch
- Rebound Coefficient of Collisionless Gas in a Rigid Vessel : a Model of Reflection of Field-Reversed Configuration
- Relations between Electric Field and Macro-Instabilites in a Theta Pinch Plasma
- STUDIES ON THE UNFERMENTABLE SUGARS (IX) IONOPHORESIS OF SUGARS
- Plasma End Loss in a Slow Theta Pinch
- Preliminary Results on Electron Acceleration Mechanism in the Slow Theta Pinch
- Crystal Distortion in Copper Ferrite-Chromite Series
- On the Transition Temperature of Copper Ferrite
- End Stabilization Effect in the Slow Theta Pinch
- End Stabilization Effect in the Slow Theta Pinch
- Implosion of Plasma in the Theta Pinch Phenomena
- Instabilities in the Slow Theta Pinch by Magnetic Field Asymmetry
- On the Relationship between the Deformation of Theta Pinched Plasma and the Inhomogeneity of Magnetc Field
- Cation Arrangement and Magnetic Properties of Copper Ferrite-Chromite Series
- Instability in Hot Electron Plasma Produced by a Mirror Theta Pinch
- Hot Electron Plasma Produced by Axially Rising Magnetic Field
- Numerical Confirmation of Closed Separatrix in Experimenal Field Reversed Configurations
- Mirror Effect on Radius of Separatrix in Field Reversed Configuration
- Stability of a Plasma with Loss from the Ends of an Axially Symmetric Magnetic Bottle
- Notes on Magneto-Hydrodynamic Equilibrium
- A Reduction of the Resonance Problems in Hydromagnetic Equilibria without Symmetry
- The Effect of the Welding Joint of Discharge Tube in $\theta$ Pinch
- Axial Behavior of a Plasma in the Slow Theta Pinch