Ключевые слова: LTS, Nb3Sn, strands, loads, contact characteristics, mechanical properties, cable-in-conduit conductor, modeling, numerical analysis
Ключевые слова: magnetic separation, design, LTS, NbTi, coils solenoidal, modeling, numerical analysis, ac losses, separator
Ключевые слова: LTS, NbTi, magnets, coils solenoidal, mechanical properties, strain effects, stress distribution, excitation system, experimental results
Andreev N., Zlobin A.V., Ambrosio G., Caspi S., Ferracin P., Lamm M.J., Tartaglia M., Anerella M., Schmalzle J., Wanderer P., Sylvester C., Velev G.V., Dimarco J., Kashikhin V.V., Bossert R., Escallier J., Nobrega F., Felice H., Sabbi G.L., Chlachidze G., Prebys E.
Ключевые слова: LTS, Nb3Sn, accelerator magnets, magnets quadrupole, measurement technique, high field magnets, quality control
Ключевые слова: ITER, coils poloidal field, impregnation, LTS, NbTi, coils pancake, modeling, numerical analysis
Smirnov A., Khodzhibagiyan H., Kuznetsov G., Trubnikov G., Bazanov A., Donyagin A., Galimov A., Karpinsky V., Nikitaev P.
Ключевые слова: synchrotron, magnets dipole, cryogenic systems, test results, LTS, NbTi, cables, prototype, accelerator magnets, quench current, ac losses, high field magnets
Andreev N., Yamada R., Ambrosio G., Ostojic R., Lamm M.J., Tartaglia M., Tang Z., Kashikhin V.V., Nicol T., Page T., Wake M., Miller J., Peterson T., Evbota D., Brandt J., Coleman R., Lopes M., Popp J., Pronskikh V., Wands R.
Ключевые слова: accelerator magnets, coils solenoidal, detector, LTS, NbTi, design, design parameters, high field magnets
Ключевые слова: coils equilibrium field, ac losses, joints, magnetic field dependence, LTS, NbTi, experimental results, numerical analysis, comparison
Ключевые слова: HTS, YBCO, coated conductors, coils solenoidal, coils insert, normal zone propagation, modeling, stability, heat transfer, quench propagation, helium liquid, hybrid systems, LTS, NbTi, Nb3Sn, coils, resistive transition, magnetic field dependence, critical caracteristics, critical current density, anisotropy, irreversibility fields, hot spots, temperature distribution, magnetic field distribution
Ключевые слова: LTS, NbTi, filaments, ac losses, numerical analysis, modeling computational
Ключевые слова: LTS, Nb3Sn, magnets quadrupole, RRR parameter, stability, quench current, critical caracteristics, critical current, experimental results
Vedrine P., Maksoud W.A., Aubert G., Beaudet F., Belorgey J., Bermond S., Berriaud C., Bredy P., Bresson D., Donati A., Dubois O., Gilgrass G., Juster F.P., Lannou H., Meuris C., Molinie F., Nusbaum M., Nunio F., Payn A., Schild T., Scola L., Sinanna A.
Ключевые слова: MRI magnets, LTS, NbTi, coils pancake, fabrication, cryostat, control systems
Xu T., Wang Q., Dai Y., Zhao B., Song S., Wang C., Li L., Cheng J., Chen S., Wang H., Ni Z., Li Y., Cui C., Hu X., Wang H., Lei Y., Chan K., Yan L., Wen C., Hui G., Yang W., Liu F., Zhuo Y., Zhou X., Yan Z., Chen J.
Ключевые слова: MRI magnets, quench protection, LTS, NbTi, fabrication, design parameters, cryogenic systems, cryostat
Ключевые слова: accelerator magnets, medical applications, design, LTS, NbTi, coils, design parameters, magnetic field distribution, modeling, cyclotron, high field magnets
Osamura K., Takahashi K., Awaji S., Watanabe K., Suzuki H., Oguro H., Harjo S., Machiya S., Aizawa K.
Bottura L., Seeber B., Senatore C., Bordini B., Richter D., Oberli L., Mondonico G., Takala E., Valentinis D.
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