Toroidal Equilibrium of Plasma with Concentrated Relativistic Electron Beam
スポンサーリンク
概要
- 論文の詳細を見る
A simplified model has been given for toroidal equilibrium of a tokamak-typeplasma with high-current concentrated electron beam. The plasma has a thermalpressure, and the electron beam has effective inertial pressure. Strong deformationsof tokamak equilibria have been simulated by numerical calculations. Toroidalequilibria with relatively large vertical field are obtained when we consider high-energy intense electron beam. The beam orbit, which is shifted outward from themagnetic axis of the plasma, is closed by the sum of the externally applied relativelylarge vertical field and the poloidal magnetic field of the plasma.
- 社団法人日本物理学会の論文
- 1989-03-15
著者
-
Fujita Takaaki
Department Of Fusion Plasma Research Japan Atomic Energy Research Institute
-
Yoshida Zensho
Department Of Nuclear Engineering Faculty Of Engineering University Of Tokyo
-
FUKE Yasutaka
Mitsubishi Heavy Industries,Ltd.
-
Fuke Yasutaka
Mitsubishi Heavy Industries Ltd.
-
Fuke Yasutaka
Department of Nuclear Engineering,The University of Tokyo
-
YOSHIDA Zensho
Department of Advanced Energy, Graduate School of Frontier Sciences, The University of Tokyo, 5-1-5 Kashiwanoha, Kashiwa, Chiba 277-8561, Japan
関連論文
- Numerical Studies on Ergodization Effect of Externally-Applied Helical Field
- Optimization Studies on the Plasma Position Control System in TORIUT-4 Tokamak
- Particle Simulation of Relativistic Charged Beams Using Integral Kernel Method
- Study of Runaway Electron Transport in Edge Stochastic Magnetic Field in the JFT-2M Tokamak
- Structurally-Unstable Electrostatic Potentials in Plasmas : Condensed Matter and Statistical Physics
- Design of a Sawtooth-Free Plasma in an Inductively-Operated Pulsed Tokamak Reactor
- High-Current Runaway Electron Beam in a Tokamak Plasma
- Cooling of Ultracold Neutrons by Propagating Magnetic Field
- A New Scheme to Realize the Optimum Watermark Detection for the Additive Embedding Scheme with the Spatial Domain(Application,Cryptography and Information Security)
- Asymmetric Perturbations of Toroidal Flux in Ramped-Up Discharges on Repute-1 Reversed Field Pinch
- Quasistatic 2-D MHD Equilibrium Calculations for Oscillating-Current RFP Plasmas
- Selective Acceleration of NBI-injected Fast Ions by Ion Cyclotron Wave in a Tokamak Plasma
- Remarkes on Relaxation Phenomena in Toroidal Discharge
- Estimate of Electron Thermal TRansmission in Structurally Unstable Electrostatic Potentials
- Measurement of the Density Profile of a Toroidal Non-neutral Plasma with a Wall-Probe Array
- Numerical Analysis of Error Fields due to Port Holes in a Plasma Confinement Device : Nuclear Science, Plasmas and Electric Discharges
- Toroidal Equilibrium of Plasma with Concentrated Relativistic Electron Beam
- Intrinsic Dissipative Structure and Magnetohydrodynamic Equilibria
- Saturated Island Width in Tokamak with External Helical Perturbation
- Thermal Power Regulation System for Pulsed Fusion Reactor
- Application of Fuzzy Theory to Plasma Data Analysis
- Ultra-low-q discharges in REPUTE-1.
- First Plasma in the RT-1 Device
- Long-Lived Pure Electron Plasma in Ring Trap-1
- Improvement of Field Accuracy and Plasma Performance in the RT-1 Device
- Modification of Probe Characteristics in a Supersonic Plasma Flow