Zhukovsky A., Michael P.C., Labombard B., Vieira R., Beck W., Doody J., Golfinopoulos T., Johnson R., Wolf M.J., Hartwig Z., Estrada J., Fry V., Ihloff E., Voirin E., Nash D., Schweiger S., O’Shea C., Watterson A., Barnett R., Bartoszek L., Lane-Walsh S., Muncks J.P., Santoro F., Stillerman J., Wilcox S., Chamberlain S., Chavarria D., Pfeiffer A., Pierson S., Ravikumar D.K., Rowell M., Vidal C., Burke W., Byford W., Cote K., Dombrowski E., Doos R., Fulton M., Levine M., Metcalfe K.
Ключевые слова: facility, magnets, Tokamak, design parameters, coils toroidal, coils model, HTS, REBCO, tapes, current leads, VIPER cable, bus bar conductor, cryogenic systems, cooling technology, cryostat, control systems, vacuum structure, shields, irradiation effects, nitrogen liquid , helium supercritical, power supply
Бутенко А.В., Бровко О.И., Галимов А.Р., Горбачёв Е.В., Костромин С.А., Карпинский В.Н., Мешков И.Н., Мончинский В.А., Сидорин А.О., Сыресин Е.М., Трубников Г.В., Тузиков А.В., Филиппов А.В., Ходжибагиян Г.Г.
Ключевые слова: NICA, synchrotron, ion irradiation, LTS, NbTi, magnets dipole, magnets quadrupole, design, design parameters, fabrication, cryogenic systems, cryostat, vacuum structure, test results
Ключевые слова: Tokamak, divertor, heat loads, ITER, DEMO, vacuum structure, cryogenic systems, status, plans
Ключевые слова: ITER, coils poloidal field, impregnation, vacuum structure, pressure effect, insulation, experimental devices, test results
Ключевые слова: colliders, proton irradiation, luminosity, design, design parameters, high field magnets, Jc/B curves, LTS, HTS, comparison, vacuum structure, screen, review
Feher S., Rabehl R., Bossert R., Todesco E., Prin H., Strauss T., Arnold D., Vouris A., Orozco C., Narug C., Nikolic V., Robotham W., Martin L.
Ключевые слова: LHC, luminosity, upgrade, cryogenic systems, cryostat, cold mass, vacuum structure, bus bar conductor, design, design parameters, quench protection
Ключевые слова: high field magnets, hybrid systems, vacuum structure, design, test results
Ключевые слова: dc performance, circuit breaker, vacuum structure, damping, contact characteristics, operational performance
Ключевые слова: synchrotron, undulator, vacuum structure
Bachmann C., Vorpahl C., Cufar A., Eade T., Flammini D., Gliss C., Kodeli I.A., Marzullo D., Mazzone G., Wilde A.
Ключевые слова: DEMO, fusion, power plants, coils toroidal, gamma irradiation, irradiation effects, heating rates, design, shields, vacuum structure
Ключевые слова: power equipment, power transmission lines, HTS, cables, vacuum structure, cryogenic pumps, test long-term operation
Ключевые слова: DEMO, Europe, design, divertor, vacuum structure, shielding effects, neutron irradiation, loads, irradiation effects, defects
Ключевые слова: LHC, luminosity, magnets, feeder, design, MgB2, LTS, NbTi, cables, joints, flexible cryostat, cryogenic systems, helium liquid, thermal properties, mechanical properties, vacuum structure
Nam K., Park W.W., Hur J., Lee Y., Kang K., Her N., Panchal M., Pichel G.P., Noh C.H., Kang D.K., Kim I.J., Lim K.
Ключевые слова: ITER, thermal performance, shields, fabrication, cryostat, vacuum structure
Ключевые слова: magnets, accelerator magnets, cryostat, design, coils solenoidal, fabrication, vacuum structure
Ключевые слова: Tokamak, HTS, vacuum structure, design, thermal properties, mechanical properties, thermal loads, modeling, transient performance, numerical analysis, arc
Caspi S., Sanfilippo S., Auchmann B., Arbelaez D., Lackner F., Felder R., Smekens D., Montenero G., Sidorov S., Brouwer L., Swanson J.H.
Ключевые слова: LTS, Nb3Sn, coils, fabrication, accelerator magnets, vacuum structure, impregnation, heat treatment, winding process
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