Ключевые слова: Tokamak, magnetic flux distribution, modeling, numerical analysis
Li M., Zani L., Federici G., Albanese R., Maviglia F., Strohmayer G., Wenninger R., Bachmann C., Ambrosino R., Loschiavo V.P., You J.H.
Ключевые слова: DEMO, Tokamak, divertor, cooling technology, thermal-hydraulics, coils, mechanical properties, fatigue behavior, ac losses
Ключевые слова: Tokamak, coils poloidal field, quench detection, numerical analysis
Yonekawa H., Lee J.-H., Kim H.-J., Chu Y., Kim Y.-O., Kim K.-P., Woo I.-S., Song J.-I., Lee H.-M., Park K.-R., Park Y.-G., Lee W.-S., Kim Y.-M.
Ключевые слова: Tokamak, coils toroidal, prototype, quench detection, sensors, design, test results
Ключевые слова: Tokamak, magnetic systems, design, Cu-based conductors, coils toroidal, coils poloidal field
Ключевые слова: cryogenic systems, Tokamak, helium liquid, forced flow, coils toroidal, coils poloidal field, measurement technique
Ono M., Wang Z., Zhai Y., Brown T., Maingi R., Menard J.E., Gryaznevich M., Kingham D., Kotschenreuther M., Mahajan S., Valanju P., El-Guebaly L., Boyer M., Canik J., Colling B., Raman R., Buxton P., Covele B., D’Angelo C., Davis A., Gerhardt S., Harb M., Hender T.C., Kaye S., Marriott E., Meier E.T., Mynsberge L., Neumeyer C., Park J.-K., Sabbagh S.A., Soukhanovskii V.10, Woolley R.
Ключевые слова: Tokamak, design, review, HTS, coils toroidal, aspect ratios, power supply, pilot-scale
Ключевые слова: Tokamak, central coils, coils model, ac losses, magnetic field distribution, LTS, coils insert, Nb3Sn, NbTi, design parameters, modeling
Ключевые слова: Tokamak, coils, control systems
Ключевые слова: Tokamak, magnets, cryogenic systems, cooling technology, Al, tubes, geometry effects, eddy currents, modeling, numerical analysis, experimental results, defects, crack formation
Tanna V.L., Pradhan S., Prasad U., Sharma A.N., Patel D., Khristi Y., Doshi K., Varmora P., Khan Z., Sharma D., Panchal A., Jadeja S.J.
Ключевые слова: Tokamak, magnetic systems, cryogenic systems, measurement setup, joints, insulation, coils toroidal, cooling technology, cryostat, test results, high field magnets
Ключевые слова: review, magnets, status, detector, accelerator magnets, LHC, synchrotron, irreversibility fields, LTS, MgB2, HTS, Bi2223, Bi2212, REBCO, high field magnets, fusion magnets, design, fabrication, cable-in-conduit conductor, stellarator, ITER, Tokamak, NMR magnet, commercialization, MRI magnets, Maglev system, magnetic separation, bearing magnetic, induction heating, rotating machines, generators, motors, SMES, transformers, FCL, inductors, current leads
Ключевые слова: shields, irradiation effects, gamma irradiation, Tokamak, chalcogenide, HTS, Bi2212, experimental results, high field magnets, new
Tsuchiya K., Mito T., Yoshida K., Chikaraishi H., Takahata K., Kamiya K., Imagawa S., Kizu K., Murakami H., Obana T., Natsume K., Hamaguchi S., Ichige T., Koide Y., Furukawa M.
Ключевые слова: Tokamak, central coils, Nb3Sn, coils solenoidal, joints, termination, current leads, LTS, NbTi, feeder, design, supporting structure, high field magnets
Ключевые слова: Tokamak, coils toroidal, strands, LTS, NbTi, cable-in-conduit conductor, control systems, friction, experimental results, high field magnets, quality control
Ключевые слова: Tokamak, central coils, design, design parameters, supporting structure, operational performance, current, geometry effects, coils pancake, LTS, Nb3Sn, cables, cooling technology, mechanical properties, stress distribution, stability, temperature distribution, strain effects, critical temperature, modeling, numerical analysis, high field magnets
Twin A., Melhem Z., Jokinen A., Chappell S., Ball S., Brzakalik R., Gryaznevich M., Hawksworth D., Jedamzik D., Kingham D., Sykes A.
Ключевые слова: cryogenic systems, cryostat, design, Tokamak, supporting structure, design parameters, high field magnets
Ключевые слова: Tokamak, China, control systems, discharge characteristics, high field magnets
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