Fabbricatore P., Farinon S., Bellomo G., Sorbi M., Statera M., Mariotto S., Prioli M., Valente R., Pampaloni A.
Ключевые слова: FCC, magnets dipole, LTS, Nb3Sn, electromagnetic forces, mechanical properties, design, modeling, design parameters
Ключевые слова: FCC, luminosity, LHC, accelerator magnets, LTS, Nb3Sn, magnets dipole, iron yoke, design, design parameters, modeling
Tommasini D., Perez J.C., Guinchard M., Bourcey N., Bermudez S.I., Grosclaude P., Troitino S.F., Naini S.E., Perez M.G.
Ключевые слова: FCC, magnetic systems, coils racetrack, LTS, Nb3Sn, magnets dipole, supporting structure, mechanical properties, test results, modeling, numerical analysis
Tommasini D., Perez J.C., Guinchard M., Bourcey N., Bermudez S.I., Grosclaude P., Troitino S.F., Naini S.E., Perez M.G.
Ключевые слова: FCC, high field magnets, LTS, Nb3Sn, coils racetrack, magnets dipole, design, fabrication, supporting structure, mechanical properties, test results
Ключевые слова: FCC, shields, LTS, NbTi, Nb, Cu-based conductors, multilayered structures, cylinders, degaussing system, fabrication, experimental results, demagnetization, numerical analysis
Kirby G., Borburgh J., Barna D., Brunner K., Goddard B., Ull A.S., Renner E., Bartmann W., Szakaly M., Novak M., Atanasov M.G.
Ключевые слова: magnets, shields, design, MgB2, bulk, LTS, NbTi, coils, modeling, numerical analysis, design parameters, FCC, canted-cosine-theta coils
Scheuerlein C., Savary F., Tommasini D., Lackner F., Bourcey N., Michels M., Zurita A.C., Troitino S.F.
Ключевые слова: FCC, accelerator magnets, LTS, Nb3Sn, design, wires multifilamentary, grain boundaries, heat treatment, modeling, filament arrangements, composition, distribution, numerical analysis
Ключевые слова: FCC, magnets sextupole, multipole magnets, design, accelerator magnets, LTS, NbTi, quench protection, numerical analysis, magnetic field distribution
Ключевые слова: FCC, magnets dipole, design, LTS, Nb3Sn, Rutherford cables, design parameters, modeling, mechanical properties, stress distribution
Ключевые слова: FCC, detector, coils solenoidal, design, LTS, NbTi, mechanical properties, stress effects, cryogenic systems, conduction cooled systems, quench protection, modeling
Ключевые слова: FCC, impedance, HTS, coatings, shields, magnetization, modeling computational, screening current, screen
Ключевые слова: presentation, FCC, magnets resistive, magnets dipole, magnets quadrupole, design, model small-scale, magnetic properties, test results
Ключевые слова: presentation, FCC, high field magnets, quench protection, modeling, quench propagation, numerical analysis, canted-cosine-theta coils
Giunchi G., Feuvrier J., Bajas H., Petrone C., Barna D., Brunner K., Nemet A., Novak M., Atanasov M.
Farinon S., Verweij A., Auchmann B., Lorin C., Salmi T., Segreti M., Maciejewski M., Munilla J., Prioli M., Caiffi B., Bortot L., Fernandez A.M.
Ключевые слова: FCC, magnets dipole, quench protection, design, modeling, numerical analysis
Ключевые слова: FCC, magnets dipole, LTS, Nb3Sn, design, design parameters, quench protection
Fabbricatore P., Farinon S., Bellomo G., Sorbi M., Statera M., Mariotto S., Caiffi B., Ricci A.M., Valente R., Pampaloni A.
Ключевые слова: FCC, magnets dipole, design, LTS, Nb3Sn, design parameters, iron yoke, quench protection, coils racetrack, mechanical properties
Cure B., Gaddi A., Gerwig H., Klyukhin V., Dudarev A., Berriaud C., Mentink M., Bielert E., Kate H.H., Wagner U., Silva H.F., Kulenkampff T.K., Ilardi V.
Ключевые слова: FCC, detector, magnets dipole, design, coils solenoidal, design parameters, LTS, NbTi, Rutherford cables
Cure B., Gaddi A., Gerwig H., Klyukhin V., Dudarev A., Berriaud C., Mentink M., Bielert E., Kate H.H., Silva H., Wagner U.
Ключевые слова: FCC, detector, magnets, LTS, NbTi, design, design parameters, quench properties, hot spots, heat loads
Tommasini D., Arbelaez D.*11, Auchmann B., Bajas H., Bajko M., Ballarino A., Barzi E.*10, Bellomo G., Benedikt M., Bermudez S.I., Bordini B., Bottura L., Brower L.*11, Buzio M., Caiffi B., Caspi S.*11, Dhalle M., Durante M., DeRijk G., Fabbricatore P., Farinon S., Ferracin P., Gao P., Gourlay S.*11, Juchno M.*11, Kashikhin V.*10, Lackner F., Lorin C., Marchevsky M.*11, Marinozzi V., Martinez T., Munilla J., Novitski I.*10, Ogitsu T., Ortwein R., Perez J.C., Petrone C., Prestemon S.*11, Prioli M., Rifflet J., Rochepault E., Russenschuck S., Salmi T., Savary F., Schoerling D., Segreti M., Senatore C., Sorbi M., Stenvall A., Todesco E., Toral F., Verweij A.P., Wessel S., Wolf F., Zlobin A.V.*10
Farinon S., Sorbi M., Stenvall A., Gao Y., Lorin C., Zhao J., Salmi T., Marinozzi V., Prioli M., Caiffi B.
Ключевые слова: FCC, magnets dipole, high field magnets, LTS, Nb3Sn, Rutherford cables, design, design parameters, flux density, distribution, modeling, loads, mechanical properties, stress distribution
Ключевые слова: FCC, accelerator magnets, magnets dipole, high field magnets, design, LTS, Nb3Sn, design parameters, magnetic field distribution, quench, RRR parameter, stability
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