Ключевые слова: impedance, design, magnets, HTS, coils, modeling, coated conductors, homogeneity, flux density, distribution
Abramian P., Calero J., Toral F., Vazquez C., Garcнa-Tabarйs L., Molina E., Gutierrez J.L., Iturbe R., Minguez L., Munilla J.
Ключевые слова: accelerator magnets, cyclotron, forced flow, cooling technology, heat exchanger, cryogenic systems, LTS, NbTi, coils, quench, training effect
Izumi T., Sato S., Iwakuma M., Yoshida K., Tomioka A., Machi T., Ibi A., Konno M., Honda S., Ueno T., Tsukigi Y., Nabekura K., Shindo R., Kawahara F., Tamura K., Yun K.
Bottura L., Rossi L., Rijk G.d., Dhallй M., Kirby G., Schoerling D., Kate H.t., Nugteren J.v., Murtomaki J.
Ключевые слова: FCC, colliders, LTS, NbTi, Nb3Sn, magnets dipole, high field magnets, plans, quench, modeling, economic analysis, iron yoke, shielding effects
Bordini B., Willering G., Savary F., Auchmann B., Russenschuck S., Karppinen M., Smekens D., Dunkel O., Fiscarelli L., Bermudez S.I., Loffler C.
Ключевые слова: LHC, luminosity, magnets dipole, LTS, Nb3Sn, high field magnets, design, design parameters, modeling, numerical analysis, mechanical properties, magnetic properties, test results, fabrication
Ключевые слова: accelerator magnets, high field magnets, persistent current mode, magnetization, FCC, magnets dipole, LTS, Nb3Sn, strands, design parameters, numerical analysis, modeling
Kikuchi A., Iijima Y., Ohuchi N., Tsuchiya K., Sugano M., Wang X., Fujita S., Terashima A., Tawada M., Daibo M., Zong Z., Masuzawa M., Arimoto Y.
Ключевые слова: magnets sextupole, HTS, REBCO, coated conductors, critical current, magnetic field dependence, coils, quench properties, critical caracteristics, design parameters, design, model small-scale, test results, coils pancake, minimum quench energy, quench energy, hot spots, quench propagation, interaction
Nakamura T., Nomura S., Tsutsui H., Chikaraishi H., Yagai T., Yanagi N., Kimura Y., Imagawa S., Kamada H.
Ключевые слова: HTS, coated conductors, YBCO, high field magnets, helical winding, coils, winding techniques, operational performance
Rodin I., Bursikov A., Belyakov V., Pugachev A., Mednikov A., Klimchenko Y., Marushin E., Nasluzov S., Stepanov D., Ustinov A.
Ключевые слова: coils poloidal field, magnets double pancake, winding techniques, ITER, facility
Ключевые слова: flywheel energy storage systems, bearing magnetic, rotating characteristics, losses, rotors, HTS, YBCO, bulk, magnets permanent, fabrication, suspension, experimental results
Ключевые слова: quench detection, HTS, magnets, measurement technique, fibers, new
Tixador P., Volpini G., Dhalle M., Bottura L., Usoskin A., Goldacker W., Rossi L., Senatore C., Bajko M., Rijk G., Fazilleau P., Fleiter J., Stenvall A., Ballarino A., Lorin C., Kario A., Badel A., Salmi T., Kirby G., Durante M., Himbele J., Haro E., Nugteren J., Langeslag S., Murtzomaki J., Yang Y.*10, Zangenberg N.*11
Awaji S., Watanabe K., Kato T., Sakuraba J., Hanai S., Ioka S., Oguro H., Mikami Y., Mitsubori H., Tsurudome T., Ookubo H., Watazawa K., HASHIMOTO A.
Ключевые слова: hybrid systems, cryogenic systems, LTS, Nb3Sn, high field magnets, NbTi, coils, cryocoolers, supporting structure, thermal properties, heat loads, excitation system, test results
Ключевые слова: MRI magnets, LTS, excitation system, power supply, stability, test results, persistent current mode
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