LABORATORIES
Applied Plasma and Quantum Engineering
Plasma Science and Engineering
Plasma physics experiments, high-density plasma generation, nonlinear wave phenomena, structure formation, plasma propulsion, plasma applications, solar cells
Advanced Space Propulsion Engineering
Fusion rockets, plasma space propulsion, nuclear rockets
Nuclear and Radiation Engineering Physics
We are conducting interdisciplinary research between physics, medicine, and engineering, aiming to advance the application of micro-particle radiation such as neutrons and muons in fields such as energy, medicine, and space exploration.
Applied nuclear physics, Cosmic-ray measurement, Mathematical data analysis
Cosmic-ray muon imaging, radioactive isotopes for medical use
Energy Chemical Engineering
Chemical engineering, nuclear fusion, nuclear fission, new energy, system design
Applied Quantum Beam Engineering
Research and development of next-generation particle accelerators that utilize the intense electric fields generated by the interaction between matter and high-intensity light lasers
Fusion Plasma
Fusion Plasma Physics and Engineering
Research on the confinement physics of magnetic-field-confinement high-temperature plasma and the development of measurement and control methods
Fusion Plasma Science and Technology
Understanding the behavior of plasma in six-dimensional space, including real and velocity space, heating and current drive of high-temperature plasma, the electromagnetic fluid behavior of plasma, and research on energy and environmental issues
Advanced Plasma Science and Engineering
High-temperature plasma experiments involving fluctuations and structure formation, interactions between waves and particles, and interactions between plasma and gases/solids
Advanced Fusion Information Control Engineering
Development of advanced plasma control techniques, real-time data analysis, and optimization of control systems, research on control algorithms for stability enhancement, and the integration of advanced sensor technologies
Fusion Science
Development of measurement techniques using lasers or microwaves for magnetically confined high-temperature plasma, and physical research using these techniques
Theory and Simulation for Plasma
Plasma Simulation Physics
Numerical simulation research on nuclear fusion plasma, including turbulence diagnostics, turbulent transport phenomena, and wall material properties
Theoretical Plasma Physics
Theoretical, simulation, and experimental investigations of non-equilibrium and nonlinear phenomena in turbulent plasma.
Atomic Molecular Optical Science
Physical research on atomic and molecular collision processes and radiative processes such as emission and absorption in astrophysical and nuclear fusion plasma
Fundamentals of Plasma
Plasma and Fusion Physical Science
Research aimed at experimentally clarifying the autonomous structures of plasma turbulence. This research targets torus plasma and basic plasma and involves the development of advanced multi-dimensional measurement instruments and the exploration of novel analysis methods.
Non-Equilibrium Plasma Dynamics
An experimentally study of non-equilibrium plasma dynamics, which have complexity and diversitydue to the electromagnetic interaction of charged particles in magnetized plasmas
Nonlinear Plasma Science
Experimental study of nonlinear phenomena by multi-dimensional measurement of plasma turbulence with spatio-temporal multi-scale structure