Ключевые слова: presentation, measurement setup, magnets, quench current, ramp rates, current-voltage characteristics, quench propagation, design
Ключевые слова: accelerator magnets, LTS, Nb3Sn, training effect, coils, quench properties, design parameters, quench current, test results
Ferracin P., Ambrosio G., Anerella M., Bajas H., Bajko M., Bordini B., Bossert R., Bourcey N., Cheng D.W., Chlachidze G., Cooley L.D., Troitino S.F., Fiscarelli L., Fleiter J., Guinchard M., Bermudez S.I., Krave S., Lackner F., Mangiarotti F., Marchevsky M., Marinozzi V., Muratore J., Nobrega A., Pan H., Perez J.C., Pong I., Prestemon S., Prin H., Ravaioli E., Sabbi G.L., Schmalzle J., Tavares S.S., Stoynev S., Todesco E., Vallone G., Wanderer P., Wang X., Yu M.
Ключевые слова: presentation, undulator, LTS, Nb3Sn, cryocoolers, vacuum structure, photo, magnets, design parameters, design, ac losses, quench current
Ключевые слова: presentation, LHC, luminosity, magnets quadrupole, status, design, design parameters, quench protection, quench current, loads, heater, LTS, Nb3Sn, prototype, fabrication
Ключевые слова: presentation, LHC, luminosity, LTS, Nb3Sn, magnets quadrupole, prototype, mechanical properties, design, fabrication, photo, design parameters, stress effects, quench current, strain effects
Carcagno R., Feher S., Song H., Anerella M., Marone A., Muratore J., Wanderer P., Baldini M., Joshi P., Sabbi G., Cheng D., Kovach P., Apollinari G., Amm K., Marchevsky M., Pan H., Chlachidze G., Ravaioli E., Marinozzi V.
Ключевые слова: LHC, luminosity, upgrade, LTS, Nb3Sn, magnets quadrupole, design, design parameters, prototype, fabrication, test results, quench, training effect, quench current
Ogitsu T., Sasaki K., Sugano M., Tanaka K., Tanaka K., Takahashi N., Nakamoto T., Suzuki K., Kimura N., Higashi N., Iida M., Ohhata H., Ikeda H., Okada R., Musso A., Ikemoto Y., Okada N., Kawamata H.
Ogitsu T., Sasaki K., Sugano M., Tanaka K., Takahashi N., Nakamoto T., Suzuki K., Kimura N., Higashi N., Iida M., Todesco E., Okada R., Musso A., Ikemoto Y., Okada N., Kawamata H., Enomoto S., Ohata H.
Ключевые слова: LHC, luminosity, magnets dipole, model small-scale, training effect, mechanical properties, LTS, NbTi, quench current, stress effects, coils, deformation, experimental results, upgrade
Nugteren J.v., Kirby G., Bajas H., Bajko M., Ballarino A., Bottura L., Chiuchiolo A., Contat P., Dhalle M., Durante M., Fazilleau P., Fontalva A., Gao P., Goldacker W., Kate H.t., Kario A., Lahtinen V., Lorin C., Markelov A., Mazet J., MOLODYK A., Murtomaki J., Long N., Perez J., Petrone C., Pincot F., Rijk G.d., Rossi L., Russenschuck S., Ruuskanen J., Schmitz K., Stenvall A., Usoskin A., Willering G., Yang Y.
Ключевые слова: accelerator magnets, magnets dipole, coils insert, HTS, GdBCO, coated conductors, helium gas, Roebel conductors, cables, cooling technology, design parameters, quench detection, RRR parameter, training effect, degradation studies, critical caracteristics, current-voltage characteristics, n-value, temperature dependence, magnetic field distribution, quench current, current decay, joint resistances, test results
Stoynev S., Ambrosio G., Anerella M., Bossert R., Cavanna E., Cheng D., Dietderich D., Dimarco J., Felice H.* 5, Ferracin P., Chlachidze G., Ghosh A., Grosclaude P., Guinchard M., Hafalia A.R., Holik E.F., Bermudez S.I., Krave S., Marchevsky M., Nobrega A., Orris D., Pan H., Perez J.C., Prestemon S., Ravaioli E., Sabbi G., Salmi T., Schmalzle J., Strauss T., Sylvester C., Tartaglia M., Todesco E., Vallone G., Velev G., Wanderer P., Wang X., Yu M.
Ключевые слова: LHC, luminosity, LTS, Nb3Sn, magnets quadrupole, model small-scale, test results, mechanical properties, stress effects, strain effects, quench current, training effect, upgrade
Broggi F., Chiuchiolo A., Dhalle M., Durante M., Fazilleau P., Fleiter J., Gao P., Goldacker W., Kario A., Kirby G., Haro E., Himbele J., Lorin C., Nugteren J.v., Petrone C., Rijk G.d., Ruuskanen J., Senatore C., Statera M., Stenvall A., Tixador P., Yang Y., Usoskin A., Zangenberg N.*10, Murtomaki J., Rossi L., Badel A., Bajas H., Bajko M., Ballarino A., Barth C., Betz U., Bottura L.
Ключевые слова: accelerator magnets, high field magnets, magnets dipole, modeling, numerical analysis, review, plans, HTS, coated conductors, REBCO, Roebel conductors, stacked blocks, coils model, YBCO, PLD process, IBAD process, critical caracteristics, critical current density, deposition setup, uniformity, critical current, ac losses, quench current, temperature dependence, test results
Ambrosio G., Ferracin P., Pan H., Prestemon S., Cheng D.W., Chlachidze G., Bajas H., Perez J.C., Guinchard M., Bourcey N., Bermudez S.I., Juchno M., Grosclaude P., Strauss T., Vallone G.
Ключевые слова: HTS, coated conductors, substrate Hastelloy, YBCO, current limiting characteristics, quench current, measurement setup, current waveforms, pulsed current, fault currents, critical caracteristics, critical current, degradation studies, insulation, insulationless, recovery characteristics, test results, FCL
Ключевые слова: accelerator magnets, LTS, Nb3Sn, Rutherford cables, design parameters, numerical analysis, modeling, critical caracteristics, critical current, degradation studies, mechanical properties, stress effects, coils, scaling law, strain effects, distribution, quench current, upper critical fields
Gourlay S., Kim Y., Larbalestier D., Jiang J., Ye L., Zhang K., Hellstrom E., Trociewitz U., Lu J., Shen T., Prestemon S., Bosque E., Higley H., English C.
Ключевые слова: HTS, Bi2212, Rutherford cables, coils racetrack, overpressure processing, control systems, quench current, design, design parameters, fabrication, test results
Bottura L., Bordini B., Bajko M., Savary F., Willering G.P., Bajas H., Mangiarotti F.J., Bermudez S.I., Lцffler C.H., Gomez J.V., Probst M.
Ключевые слова: magnets dipole, quench propagation, transport currents, mechanical properties, stress effects, LTS, Nb3Sn, modeling, quench properties, quench current
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