Ключевые слова: accelerator magnets, magnets dipole, hybrid systems, LTS, Nb3Sn, HTS, Bi2212, design, quality control, design parameters, mechanical properties, stress effects, numerical analysis
Du X., Compton C., Choi Y., Xu T., Saito K., Magsig C., Portillo M., Nguyen H., Chang W., Popielarski L., Wenstrom J., Wenstrom J., Al-Mahmoud Y., Asciutto J., Barnes B., Bliton R., Greene D.B., Holland K., Miller S., Nguyen L., Reaume M., Tousignant B., Walker R.
Ключевые слова: magnets, magnets dipole, magnetic systems, design parameters, isotope, measurement technique, experimental devices, facility, separator
Ключевые слова: HTS, REBCO, tapes, comparison, Roebel conductors, magnets dipole, conduction cooled systems, high current processing, ac losses, modeling
Ключевые слова: DEMO, measurement setup, LTS, Nb3Sn, strands, cable-in-conduit conductor, HTS, REBCO, tapes, coils racetrack, magnets dipole, design, design parameters, modeling, numerical analysis, facility
Zhang Y., Chen Y., Zhang X., Zhu X., Yang W., Ma L., Lu J., Wu W., Yao Q., Liang Y., Ni D., Mei E., Ou X., You W., Qin X., Bai B.
Ключевые слова: medical applications, ion irradiation, magnets dipole, LTS, NbTi, cables, coils, design, bending radius, quench, mechanical properties, strain effects, test results
Sorbi M., Statera M., Leone A., Paccalini A., Pedrini D., Todero M., Mariotto S., Prioli M., Matteis E.d., Pasini A., Palmisano A., Valente R.U., Sorti S.
Ключевые слова: LHC, luminosity, upgrade, correction coils, magnets dipole, magnets quadrupole, prototype, fabrication, MgB2, wires, coils, design, design parameters, quench, magnetic field density, quality control, measurement technique
Ключевые слова: LHC, LTS, Nb3Sn, cable-in-conduit conductor, magnets dipole, design parameters, hybrid systems, HTS, REBCO, coils insert, fabrication, bending radius, mechanical properties, strain effects
Ключевые слова: magnets dipole, HTS, REBCO, tapes, CORC cables, magnetization, quality control, modeling, numerical analysis
Ключевые слова: accelerator magnets, magnets dipole, design, design parameters, hybrid systems, LTS, Nb3Sn, HTS, Bi2212
Ключевые слова: magnets dipole, HTS, Bi2212, strands, Rutherford cables, coils insert, mechanical properties, design, design parameters, fabrication
Ключевые слова: accelerator magnets, hybrid systems, LTS, Nb3Sn, HTS, Bi2212, magnets dipole, magnetic field distribution, stress distribution, quench protection, modeling
Ключевые слова: accelerator magnets, magnets dipole, persistent current mode, HTS, coils, design, fabrication, test results, cryogenic systems, nitrogen liquid
Yang Y., Zhang X., Yang W., Ma L., Lu J., Wu A., Liang Y., Ni D., Mei E., Tong Y., Ou X., You W., Qin X., Bai B.
Ключевые слова: medical applications, ion irradiation, magnets dipole, LTS, NbTi, wires, coils, cables, design, design parameters, prototype, fabrication, quench protection, test results
Lucas J., Muller H., Sugita K., Madur A., Winkler M., Allain H., Chiuchiolo A., Lopez M., Roux C., Cho E., Michels M., Velonas V., Kosek P., Greiner F., Beaumont A., Escudero M.G., Riddone G.
Ключевые слова: magnets dipole, isotope, LTS, NbTi, wires, strands, coils, design, design parameters, fabrication, cryogenic systems, cooling technology, test results
Hobl A., Gehring M., Lorin C., Wu H., Maksoud W.A., Steinmann J., Allard J., Amend J., Schaffran J., Berriaud C. and 20 Authors, Majorovits B., Kreikemeyer-Lorenzo D., Caldwell A., Zoeller H.
Lorin C., Mayri C., Maksoud W.A., Berriaud C., Nunio F., Calvelli V., Dilasser G., Stacchi F., Duraсona U., Pontarollo T., Lottin J., Denarie L.
Ключевые слова: magnets dipole, new, LTS, NbTi, strands, cable-in-conduit conductor, cables, wrapping, Cu-based conductors, helium superfluid, tensile tests, mechanical properties, numerical analysis
Ключевые слова: medical applications, accelerator magnets, magnets dipole, design parameters, LTS, NbTi, strands, gantry, heat transfer, quench protection, modeling, numerical analysis
Ключевые слова: LTS, NbTi, magnets, magnets dipole, design, design, gantry, harmonic coefficients, modeling, medical applications, proton irradiation
Scola L., Lorin C., Maksoud W.A., Berriaud C., Nunio F., Calvelli V., Dilasser G., Stacchi F., Duraсona U., Pontarollo T., Lottin J.
Ключевые слова: LTS, NbTi, cable-in-conduit conductor, magnets dipole, detector, design, design parameters, mechanical properties, stress distribution
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