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High Temperature Plasma Center, The University of Tokyo | 論文
- Diagnostics of Recombining Plasmas in Divertor Simulator MAP-II
- Forthcoming Break-Even Conditions of Tokamak Plasma Performance for Fusion Energy Development (小特集 2050年にトカマク型実用核融合プラントを稼動させるために--ITERの役割とその後の展開)
- Measurement of Azimuthal Flow Velocity Using Laser-Induced Fluorescence Spectroscopy in a HYPER-I Plasma
- Transition of Edge Particle Transport in CHS
- Construction and Operation of an Internal Coil Device with a High Temperature Superconductor
- Experiment on Deflection of High-Speed Plastic Pellets Using Curved Guide Tubes
- Levitation Experiment Using a High-Temperature Superconductor Coil for a Plasma Confinement Device(Superconductors)
- Applicability of Laser Imaging System Using a Near Infrared Laser to Measure Density Fluctuations in High-Temperature Plasmas
- 23aQB-1 Improvement of Laser Thomson Scattering system for low temperature plasmas in MAP-II
- Measurement of Rotational Populations of CH Radicals in Low-Temperature Plasmas
- Plasma Production by Electron Cyclotron Heating on the Internal Coil Device Mini-RT
- Experimental Evaluation of Predissociation Rate in v=4 State Usable for Analysis of H_2 Fulcher-α Band Emission(Gases, Plasmas and Electric Discharges)
- Development of Laser Photodetachment Technique Using Heated Probe to Eliminate the Effect of Probe Surface Ablation Phenomena
- Plasma Production by Electron Cyclotron Heating on the Internal Coil Device Mini-RT
- FRC Formation Process of Two Colliding Spheromaks with Counterhelicity
- Measurements of Ion Temperature and Flow Velocity in Divertor Simulator MAP-II from Hydrogenic Helium Line Emission
- 24aTB-1 Development of an asymmetric double monochromator in the laser Thomson scattering system for low temperature recombining plasmas in MAP-II
- 20aQE-4 Comparison between Laser Thomson Scattering and He I CR Model Measurements of Helium EIR Plasmas in Divertor Simulator MAP-II
- 01pC12P DiPS : A Diversified Plasma Simulator for Divertor and Space Plasma Simulations
- Development of Laser Photodetachment Technique Using Heated Probe to Eliminate the Effect of Probe Surface Ablation Phenomena