Numerical Simulation of a High-Brightness Lithium Ion Gun for a Zeeman Polarimetry on JT-60U

スポンサーリンク

概要

• 論文の詳細を見る

• A lithium ion gun is under construction for a lithium beam Zeeman polarimetry on JT-60U. The performance of the prototype ion gun has been estimated by the numerical simulation taking the space charge effects into account. The target values of the ion gun are the beam energy of 30 keV, the beam current of 10 mA and the beam divergence angle within 0.13 degrees. The low divergence of 0.13 degrees is required for the geometry of the Zeeman polarimetry on JT-60U where the observation area is 6.5 m away from the neutralizer. The numerical simulation needs to be carried out for the design study because the requirement of the divergence angle is severe for the development of the high-brightness ion gun. The simulation results show the beam loss of 50 % caused by the clash to the electrode such as the cathode and the neutralizer. Moreover, the beam transport efficiency from the neutralizer to the observation area is low due to the broadening of the divergence angle. The total beam efficiency is about 5 %. Extracted beam profile affects the beam focusing and the efficiency. The peaked profile achieves better efficiency than the hollow one. As a result, beam current of 1 mA is obtained at the observation area by the simulation for the prototype ion gun.

著者

• KOJIMA Atsushi

  Japan Atomic Energy Agency, Naka, Ibaraki 311-0193, Japan

• KAMIYA Kensaku

  Japan Atomic Energy Agency, Naka, Ibaraki 311-0193, Japan

• Iguchi Harukazu

  National Institute For Fusion Science

• IGUCHI Harukazu

  National Institute for Fusion Science, Toki, Gifu 509-5292, Japan

• KAMADA Yutaka

  Japan Atomic Energy Agency

• FUJITA Takaaki

  Japan Atomic Energy Agency

• KOJIMA Atsushi

  Japan Atomic Energy Agency, Naka 311-0193, Japan

• KAMIYA Kensaku

  Japan Atomic Energy Agency

関連論文

• Development of a Lithium Beam Probe and Measurement of Density Pedestal in JT-60U
• Measurement of Edge Density Profiles and Fluctuations in the H-Mode Discharge of the Compact Helical System (CHS) with a Thermal Neutral Lithium Beam Probe
• Effect of Plasma Current on Magnetohydrodynamic Modes in Neutral Beam Heated Plasmas in Compact Helical System
• Transition of Edge Particle Transport in CHS
• Causal Relationship between Zonal Flow and Turbulence in a Toroidal Plasma(Gases, plasmas, electric discharges, and beams)
• Measurement of Space Potential Fluctuations During MHD Activities in a Toroidal Helical Plasma with a Heavy Ion Beam Probe
• Proposal of a Single Sweep Measurement of a Potential Profile in Tokamak Plasmas by High Voltage Heavy Ion Beam Probes
• Increase of Lifetime of Thallium Zeolite Ion Source for Single-Ended Accelerator
• Estimation of Current Profile during Ion Cyclotron Range of Frequency Heated Discharges Characterized by Sawtooth Stabilization and Crash in JT-60U
• Electron Cyclotron Emission from Optically Thin Plasma in Compact Helical System
• Effect of Magnetic Island Associated with Neoclassical Tearing Modes on Plasma Rotation in JT-60U
• Simultaneous Measurements of Plasma Potential and Density Fluctuations in a Bumpy Torus by a Heavy Neutral Beam Probe
• Heavy Ion Beam Probe for the Study of Plasma Confinement in Nagoya Bumpy Torus
• Development of Concentric Equipotential Surfaces in Bumpy Torus Plasma
• Observation of Ion Cyclotron Emission Owing to DD Fusion Product H Ions in JT-60U
• Physics Mechanisms of Toroidal Rotation Profile and Properties of Momentum Transport in JT-60U
• Rotational Stabilization of Resistive Wall Mode on JT-60U
• Applicability of Laser Imaging System Using a Near Infrared Laser to Measure Density Fluctuations in High-Temperature Plasmas
• Development of an Ion Beam Probe System for Potential Measurement in the Low Aspect-Ratio Torus Experiment Device
• Development of an Ion Beam Probe System for Potential Measurement in the Low Aspect-Ratio Torus Experiment Device
• Study of Edge Transport Barrier Formation on CHS Plasma
• Study of Plasma Current Decay in the Initial Phase of High Poloidal Beta Disruptions in JT-60U
• Numerical Simulation of a High-Brightness Lithium Ion Gun for a Zeeman Polarimetry on JT-60U
• Development of Real-Time Measurement System of Charge Exchange Recombination Spectroscopy and Its Application to Feedback Control of Ion Temperature Gradient in JT-60U
• Numerical Method for the Stability Analysis of Ideal MHD Modes with a Wide Range of Toroidal Mode Numbers in Tokamaks
• Roles of Toroidal Rotation at the Plasma Edge, Toroidal Field Ripple and Configuration on ELMs in the JT-60U Tokamak
• Control of Growth of Neoclassical Tearing Mode by Central Co-ECCD in JT-60U
• Recipe for Fabricating Zeolite Ion Source for Plasma Probing
• Development of a Simulator for Plasma Position and Shape Control in JT-60SA
• First Observation of High Density Edge Transport Barrier Formation during Reheat Mode of Helical Plasma in CHS
• A Simultaneous Spectroscopic Measurement of the Global and Edge Local Structures in the Ion Temperature and Plasma Rotation Profiles in the Compact Helical System
• Beam Probe Imaging of Electron Density in the Chaotic Region of CHS
• Dynamics of Plasma during the Formation of a Weak Negative Central Magnetic Shear Configuration Using Counter Neutral Beam Injection in the JFT-2M Tokamak.

もっと見る 閉じる

スポンサーリンク