Ambrosio G., Feher S., Nogiec J., Tartaglia M., Dimarco J., Walbridge D., Baldini M., Chlachidze G., Stoynev S., Strauss T., Nikolic V., Akella P., Thompson P.
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
Ключевые слова: accelerator magnets, beam lines, facility, LTS, NbTi, cables, coils, separator, multipole magnets, design, prototype, fabrication
Zhukovsky A., Michael P.C., Golfinopoulos T., Hartwig Z.S., Wolf M.J., Beck W.K., Vieira R.F., Estrada J., Fry V., Ihloff E., Barnett R., Vidal C.
Ключевые слова: facility, SPARC program, HTS, REBCO, coils toroidal, coils model, cryogenic systems, nitrogen liquid , current leads, design, design parameters, fabrication, operational performance, VIPER cable, test results, review
et al., Hubbard A., Golfinopoulos T., Fry V., Voirin E., Barnett R., Bartoszek L., Chamberlain S., Korsun D., et al.*1., Cheng J.L.
Ключевые слова: SPARC program, HTS, REBCO, coils toroidal, coils model, insulationless, VIPER cable, design, design parameters, fabrication, review, facility
Ключевые слова: fusion magnets, dc performance, flux pumps, design, design parameters, coils, facility, operational performance, coils toroidal, power supply, modeling
Ключевые слова: LHC, luminosity, accelerator magnets, magnets quadrupole, LTS, Nb3Sn, cryogenic systems, cryostat, cold mass, facility
Martovetsky N., Smith J., Langhorn A., Khumthong K., Ortiz E., Norausky N., Fledderman B., Patlan S.
Ключевые слова: ITER, central coils, coils solenoidal, termination, joints, insulation, breakdown characteristics, voltage, test results, facility
Smith K., Romano G., Bonito-Oliva A., Readman P., Batista R., Valente P., Rossi D., Loizaga A., Bilbao M., Aprili P., Lopez M.M., Carvas P., Gavouyere-Lasserre P., Vizio E., Casarin V., Kostopoulos C.-2, Fachin G.
Ключевые слова: ITER, coils poloidal field, Europe, winding process, facility
Ключевые слова: medical applications, proton irradiation, facility, magnets, canted-cosine-theta coils, design, gantry
Ключевые слова: measurement setup, facility, cryogenic systems, helium superfluid, cooling technology, cryostat, design, magnets, test results
Ключевые слова: facility, magnets, dc performance, mechanical properties, tensile tests, bending process, coils pancake
Devred A., Todesco E., Milanese A., Bermudez S.I., Troitino J.F., Lusa N., Quassolo P.M., Straarup S.
Ключевые слова: LHC, luminosity, accelerator magnets, magnets quadrupole, LTS, Nb3Sn, coils, fabrication, facility, test results
Isono T., Sakamoto K., Baba T., Hemmi T., Shimizu T., Takano K., Tsutsumi F., Saito K., Kajitani H., Nakahira M., Nakamoto M., Kasai Y.
Ключевые слова: Japan, ITER, coils toroidal, design parameters, fabrication, facility, review
Ключевые слова: facility, measurement setup, measurement technique, control systems, critical caracteristics
Ключевые слова: magnets, LTS, Nb3Sn, coils, heat treatment, control systems, temperature distribution, time evolution, uniformity, facility, dc performance
Yuan X., Orris D., Velev G.V., Makulski A., Sabbi G., Kashikhin V., Arbelaez D., Prestemon S., Marinozzi V., Bruce R., Koshelev S., Tope T., Nikolic V., Arcola C.
Ключевые слова: high field tests, measurement setup, design parameters, HTS, cables, cryogenic systems, cryostat, design, power supply, quench protection, status, facility
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