Boosting Up of Neutral Beam Heating Power by Slowly Rising Toroidal Field
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概要
- 論文の詳細を見る
A System of 1-D transport codes combined with Fokker-Planck codes hasbeen used to simulate plasmas undergoing cempression with beam injection forthe 'R-Project tokamak'. The results obtained from the combination of bermheating and compression are very encouraging. They show that by increasingthe toroidal magnetic field and the plasma current simultaneously, it is possibleto significantly increase the Jon temperature with a very slow compression. Thefinal ton temperature is very weakly dependent on the compression time r. from0.5 sec to l sec for the 'R-Project tokamak'. If the 'R-Project tokamak' plasmais compressed by increasing the magnetic field and plasma current simultane-ously, then the beam power of 15 MW which is necessary to obtain an averageion temperature of 5 keV without compression can be reduced to 8.5 MW.
- 社団法人日本物理学会の論文
- 1982-11-15
著者
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OKAMOTO Masao
Institute of Plasma Physics, Nagoya University
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HIRANO Kei-ichi
Institute of Plasma Physics, Nagoya University
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Lin Rui-yan
Institute Of Plasma Physics Nagoya University:institute Of Physics Academia Sinica Peking China.
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AMANO Tsuneo
Institute of Plasma Physics,Nagoya University
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Amano Tsuneo
Institute Of Plasma Physics Nagoya University
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Okamoto Masao
Institute Of Plasma Physics Nagoya University
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SHIMIZU Katsu-hiro
Institute of Plasma Physics,Nagoya University
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Hirano Kei-ichi
Institute Of Plasma Physics Nagoya University
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OKAMOTO Masao
Institute of Atomic Energy, Kyoto University
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- Numerical Study of LHRF-Heating in a Tokamak
- Numerical Calculation on a Mechanism of Current Sustainment during LHCD
- Data Processing of Magnetic Probe in Toroidal Pinch Plasma
- Collisional Relaxation of Electron Tail Distribution
- The Oscillatation of the Trapped Flux in the Early Phase of a Reversed Field θ-Pinch
- Plasma Behaviors in the Open Field Region of Reversed-Field Theta-Pinch
- Successive Heating of a Theta Pinch
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