Plasma Transport in Periodic Magnetic Field by Permanent Ring Magnets
スポンサーリンク
概要
- 論文の詳細を見る
The feasibility of plasma transport in periodic magnetic fields was studied for the pulse length control and modulation of laser ablation ion sources. The field was created by permanent magnet rings and the plasma ion flux was investigated as a function of the field profile and the transport distance. The results showed that the field is effective for the plasma guiding and the transport efficiency depends on the field profiles. The results also indicated that collective effects play an important role in the plasma guiding.
著者
-
NAKAJIMA Mitsuo
Tokyo Institute of Technology
-
HORIOKA Kazuhiko
Tokyo Institute of Technology
-
Horioka Kazuhiko
Tokyo Inst. Technol. Yokohama
-
Ikeda Shunsuke
Tokyo Institute Of Technology
-
TAKAHASHI Kazumasa
Tokyo Institute of Technology
-
HASEGAWA Jun
Tokyo Institute of Technology
-
ISONO Fumika
Tokyo Institute of Technology
-
TAKAYAMA Ken
Tokyo Institute of Technology
関連論文
- Beam Dynamics Simulation in Final Beam Bunching of Heavy Ion Inertial Fusion
- Extreme-ultraviolet Intensity of Discharge-based Lithium Plasma for Lithography
- 27pA40P Enhancement of EUV Emission in Fast Heating Plasma
- Theoretical Consideration on Final Beam Bunching for Heavy Ion Inertial Fusion
- Submicron InP/InGaAs Composite-Channel Metal-Oxide-Semiconductor Field-Effect Transistor with Selectively Regrown n^+-Source
- Numerical Study on Gain Coefficient of a Capillary-Discharged Neon-Like Argon X-Ray Laser
- Enhancement of EUV Emission in Fast Heating Plasma
- Effect of Opacity on Neon-like Argon, and Krypton Line Intensity Ratios in Static, and Cylindrically Imploding High-Density Plasmas
- Erratum: “InP/InGaAs Composite Metal--Oxide--Semiconductor Field-Effect Transistors with Regrown Source and Al2O3 Gate Dielectric Exhibiting Maximum Drain Current Exceeding 1.3 mA/μm”
- Pulse-Power Device as a Tool for High-Energy-Density Plasma Physics and its Applications
- Reduction of Access Resistance of InP/InGaAs Composite-Channel MOSFET with Back-Source Electrode
- Ejector Chemical Oxygen–Iodine Laser with Supersonic Nozzle Bank Based on a Trip-Jet Mixing System
- Plasma Transport in Periodic Magnetic Field by Permanent Ring Magnets