- 20.7.1
- EurekAlert:Lose weight of fusion reactor component -Design optimization using a topology optimization technique-
- 20.7.1
- EurekAlert:An accurate simulation of high-pressure plasma for an economical helical fusion reactor
- 20.6.22
- Research Updates:Metal receiving heat from the sun of the ground:Developing the Dispersion Strengthening Copper carrying cooling function
- 20.4.17
- Announcement:Employment
To those who want to visit NIFS:Regarding Coronavirus Disease 2019 (COVID-19)
- 20.6.22
- Metal receiving heat from the sun of the ground:Developing the Dispersion Strengthening Copper carrying cooling function
- 20.1.9
- Fast Particles Distort Electric Potential in the Plasma:High-Precision Particle Simulation Research
- 19.11.7
- Operating Simulator of Large Superconducting Magnetic Cooling Device - Heading for the early establishment of an optimal design and an operating method –
- 19.5.14
- Joint Project between National Institute for Fusion Science and Southwest Jiaotong University in the People’s Republic of China - Construction of the Quasi-axisymmetric stellarator(CFQS)
- 20.7.1
- EurekAlert:Lose weight of fusion reactor component -Design optimization using a topology optimization technique-
- 20.7.1
- EurekAlert:An accurate simulation of high-pressure plasma for an economical helical fusion reactor
- 20.3.10
- Isotope movement holds key to the power of fusion reactions
- 19.8.20
- Simulations demonstrate ion heating by plasma oscillations for fusion energy
- 19.8.2
- Demonstration of alpha particle confinement capability in helical fusion plasmas
- 19.7.16
- Fusion scientists have developed “the nano-scale sculpture technique”: ~ This enables observation inside hard materials with an atomic-scale ~
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NIFS Pamphlet 2019-2020