Heliotron J is a fusion research device in Japan, specifically a helical-axis heliotron designed to study plasma confinement in this type of device.[1][2][3] It is located at the Institute of Advanced Energy of Kyoto University.[4]
References
"The Laboratory for Complex Energy Processes". Institute of Advanced Energy, Kyoto University. Archived from the original on 2016-04-17.
Okada, H.; Kobayashi, S.; Nagasaki, K.; Mizuuchi, T.; Yamamoto, S.; Motojima, G.; Watanabe, S.; Mukai, K.; Mihara, S.; Kowada, Y.; Hosaka, K.; Matsuyama, A.; Nakamura, Y.; Hanatani, K.; Nishino, N.; Nakashima, Y.; Nagaoka, K.; Mutoh, T.; Suzuki, Y.; Yokoyama, M.; Konoshima, S.; Kondo, K.; Sano, F. "Configuration Control Experiment in Heliotron J" (PDF). Retrieved 25 September 2018.
Obiki, T.; Mizuuchi, T.; Nagasaki, K.; Okada, H.; Besshou, S.; Sano, F.; Kondo, K.; Liu, Y.; Nakamura, Y.; Hanatani, K.; Nakasuga, M.; Wakatani, M.; Hamada, T.; Manabe, Y.; Shidara, H.; Yamagishi, O.; Aizawa, K.; Ang, W. L.; Ikeda, Y. I.; Kawazome, Y.; Kobayashi, T.; Maeno, S.; Takamiya, T.; Takeda, M.; Tomiyama, K.; Ijiri, Y.; Senju, T.; Yaguchi, K.; Sakamoto, K.; Toshi, K.; Shibano, M. (2000), First Plasmas in Heliotron J, Sorrento, Italy: IAEA, retrieved 2018-09-25
Obiki, T; Sano, F; Wakatani, M; Kondo, K; Mizuuchi, T; Hanatani, K; Nakamura, Y; Nagasaki, K; Okada, H; Nakasuga, M; Besshou, S (2000). "Goals and status of Heliotron J". Plasma Physics and Controlled Fusion. 42 (11): 1151–1164. doi:10.1088/0741-3335/42/11/302. ISSN 0741-3335.
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Fusion power, processes and devices
Core topics
Nuclear fusion
Timeline List of experiments Nuclear power Nuclear reactor Atomic nucleus Fusion energy gain factor Lawson criterion Magnetohydrodynamics Neutron Plasma
Processes,
methods
Confinement
type
Gravitational
Alpha process Triple-alpha process CNO cycle Fusor Helium flash Nova
remnants Proton-proton chain Carbon-burning Lithium burning Neon-burning Oxygen-burning Silicon-burning R-process S-process
Magnetic
Dense plasma focus Field-reversed configuration Levitated dipole Magnetic mirror
Bumpy torus Reversed field pinch Spheromak Stellarator Tokamak
Spherical Z-pinch
Inertial
Bubble (acoustic) Laser-driven Magnetized Liner Inertial Fusion
Electrostatic
Fusor Polywell
Other forms
Colliding beam Magnetized target Migma Muon-catalyzed Pyroelectric
Devices,
experiments
Magnetic
confinement
Tokamak
International
ITER DEMO PROTO
Americas
Canada STOR-M United States Alcator C-Mod ARC
SPARC DIII-D Electric Tokamak LTX NSTX
PLT TFTR Pegasus Brazil ETE Mexico Novillo [es]
Asia,
Oceania
China CFETR EAST
HT-7 SUNIST India ADITYA SST-1 Japan JT-60 QUEST [ja] Pakistan GLAST South Korea KSTAR
Europe
European Union JET Czech Republic COMPASS GOLEM [cs] France TFR WEST Germany ASDEX Upgrade TEXTOR Italy FTU IGNITOR Portugal ISTTOK Russia T-15 Switzerland TCV United Kingdom MAST-U START STEP
Stellarator
Americas
United States CNT CTH HIDRA HSX Model C NCSX Costa Rica SCR-1
Asia,
Oceania
Australia H-1NF Japan Heliotron J LHD
Europe
Germany WEGA Wendelstein 7-AS Wendelstein 7-X Spain TJ-II Ukraine Uragan-2M
Uragan-3M [uk]
RFP
Italy RFX United States MST
Magnetized target
Canada SPECTOR United States LINUS FRX-L – FRCHX Fusion Engine
Other
Russia GDT United States Astron LDX Lockheed Martin CFR MFTF
TMX Perhapsatron PFRC Riggatron SSPX United Kingdom Sceptre Trisops ZETA
Inertial
confinement
Laser
Americas
United States Argus Cyclops Janus LIFE Long path NIF Nike Nova OMEGA Shiva
Asia
Japan GEKKO XII
Europe
European Union HiPER Czech Republic Asterix IV (PALS) France LMJ LULI2000 Russia ISKRA United Kingdom Vulcan
Non-laser
United States PACER Z machine
Applications
Thermonuclear weapon
Pure fusion weapon
Hellenica World - Scientific Library
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