Ключевые слова: LHC, upgrade, magnets dipole, heat loads, cryogenic systems, screen, electron irradiation, modeling, experimental results
Ambrosio G., Feher S., Nogiec J., Tartaglia M., Wang X., Dimarco J., Walbridge D., Baldini M., Chlachidze G., Stoynev S., Strauss T., Ghiorso W., Nikolic V., Akella P., Assell D., Thompson P.
Ключевые слова: LHC, upgrade, luminosity, magnets quadrupole, measurement technique, coils, rotating characteristics, test results
Garcia-Tabares L., Toral F., Willering G., Todesco E., Jimenez J., Perez J.C., Guinchard M., Fiscarelli L., Garcia-Matos J.A., Perez J.M., Estevez A., Gomez P., Pardo J.A., Sobrino P., Martinez L.M., Dominguez M.A., Jardim C.M., Ferradas S., Duran O., Alcazar C., Gonzalez L., Martнnez T.
Ключевые слова: LHC, upgrade, magnets dipole, fabrication, training effect, quench, quality control, test results, operational performance
Bottura L., Devred A., Bordini B., Bajko M., Todesco E., Ballarino A., Rijk G.d., Bajas H., Bermudez S.I., Ramos D.D., et al
Ключевые слова: LHC, luminosity, accelerator magnets, LTS, Nb3Sn, NbTi, upgrade, review, coils, design parameters, design, magnets quadrupole, RRP process, RRR parameter, critical current, fabrication, training effect, quench, prototype, magnets dipole, correction coils, MgB2, wires, interaction
Ambrosio G., Carcagno R., Feher S., Song H., Anerella M., Marone A., Muratore J., Schmalzle J., Wanderer P., Baldini M., Joshi P., Sabbi G., Cheng D., Kovach P., Apollinari G., Amm K., Marchevsky M., Pan H., Chlachidze G., Marinozzi V., Strauss T.
Ключевые слова: LHC, luminosity, upgrade, LTS, Nb3Sn, magnets quadrupole, design, design parameters, quench, training effect, prototype, test results
Ambrosio G., Ferracin P., Feher S., Bordini B., Bajko M., Todesco E., Fleiter J., Apollinari G., Takala E., Perez J.C., Prin H., Milanese A., Principe R., Lackner F., Guinchard M., Ravaioli E., Bourcey N., Fiscarelli L., Bermudez S.I., Ramos D.D., Pulikowski D., Mangiarotti F., Lusa N.
Ключевые слова: LHC, luminosity, upgrade, LTS, Nb3Sn, magnets quadrupole, design parameters, coils, fabrication, cooling technology, quench protection
Bruzzone P., Bottura L., Hopkins S.C., Ferracin P., Bordini B., Sabbi G., Ballarino A., Pong I., Arbelaez D., Cau F., Prestemon S., Reccia L., Testoni P., Rijk G.d., Perez J.C., Ravaioli E., Sedlak K., Sarasola X., Vallone G., Araujo D.M., Solodko E., *3 Portone A.
Ключевые слова: EDIPO, upgrade, magnets dipole, LTS, Nb3Sn, Rutherford cables, RRP process, design, design parameters, coils pancake
Hornung F., Klaser M., Schneider T., Leys P., Lahn H., Ruf C., Eisele M., Decker M., Gretschmann F., Heinrich P., Rossler J.
Ключевые слова: commissioning, high field magnets, coils insert, HTS, GdBCO, coated conductors, design, design parameters, fabrication, upgrade, coils outer, LTS, NbTi, Nb3Sn, facility
Wang L., Pong I., Hodgkinson A., Steier C., Schlueter R., Robin D., Sun C., Virostek S., Juchno M., Swenson C., Jung J.Y., Nepomuceno R., Venturini M., Chow K.
Felice H., Todesco E., Foussat A., Perez J.C., Guinchard M., Segreti M., Rochepault E., Graffin P., Rifflet J., Simon D., PERRAUD S., OLLIER R., MINIER G., Troitiсo S.F., Naini S.E.
Ключевые слова: LHC, luminosity, magnets quadrupole, LTS, NbTi, upgrade, design, design parameters, coils, fabrication, mechanical properties, stress effects, displacements, installation
Mangiarotti F.J., Duda M., Fiscarelli L., Kirby G., Bajko M., Coll D., Desbiolles V., Feuvrier J., Guyon J., Mazet J., Mentink M., Nugteren J.v., Pepitone K., Perez J.C., Pincot F., Rijk G.d., Robertson J., Steckert J., Todesco E., Willering G.
Ключевые слова: LHC, luminosity, upgrade, magnets dipole, prototype, fabrication, test results, LTS, NbTi, correction coils, design parameters, training effect, quench detection, quench protection, RRR parameter, inductance
Ambrosio G., Ferracin P., Muratore J., Prestemon S.O., Pan H., Cheng D.W., Guinchard M., Grosclaude P., Vallone G., Anderssen E.C.
Ключевые слова: LHC, luminosity, upgrade, magnets quadrupole, LTS, Nb3Sn, mechanical properties, prototype, design, design parameters, fabrication, strain effects, stress effects, test results
Ogitsu T., Sasaki K., Sugano M., Tanaka K., Takahashi N., Nakamoto T., Suzuki K., Kimura N., Higashi N., Iida M., Ohhata H., Todesco E., Ikeda H., Okada R., Musso A., Ikemoto Y., Okada N., Kawamata H.
Ключевые слова: LHC, luminosity, upgrade, magnets dipole, LTS, NbTi, training effect, coils, supporting structure, stress effects, strain effects, quench current
Calero J., Fernandez A., Garcia-Tabares L., Toral F., Willering G., Bajko M., Todesco E., Perez J.C., Guinchard M., Mangiarotti F.J., Martinez T., Fiscarelli L., Bermudez S.I., Munilla J., Garcia-Matos J.A., Perez J.M., Lopez D., Gomez P., Pardo J.A., Sobrino P., Martinez L.M., Emami S., Dominguez M.A.
Ключевые слова: LHC, luminosity, magnets, prototype, design, design parameters, correction coils, upgrade, fabrication, magnets dipole, LTS, NbTi, Rutherford cables, power, test results
Rossi L., Verweij A., Todesco E., Rijk G.d., Steckert J., Perez J.C., Kirby G., Mentink M., Mangiarotti F.J., Nugteren J.v., Fiscarelli L., Gentini L., Mazet J., Canale M., Pincot F., Coelingh G.J.
Ключевые слова: LHC, upgrade, luminosity, correction coils, magnets, prototype, fabrication, design, design parameters, LTS, NbTi, strands, wires, insulation, winding configurations, quench properties, test results
Ключевые слова: LHC, luminosity, upgrade, design, fabrication, bus bar conductor, LTS, NbTi, Rutherford cables, insulation, Nb3Sn, joints, prototype, test results
Verweij A., Schmidt R., Wollmann D., Denz R., Mentink M., Ravaioli E., Zerlauth M., Mateos F.R., Bortot L., Lindstrom B., Belanger P., Uythoven J., Valette M., Wiesner C.
Ключевые слова: LHC, upgrade, luminosity, protective system, proton irradiation, losses, modeling
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