Zanino R., Breschi M., Martovetsky N., Miyoshi Y., Bonifetto R., Schild T., Smith J., Hoa C., Freudenberg K., Cavallucci L., Zappatore A., Langhorn A., Rossano G., Pichel G.P., Khumthong K., Sheeron J., Ortiz E., Wooley K., Norausky N.
Ключевые слова: ITER, LTS, Nb3Sn, cable-in-conduit conductor, central coils, magnetic systems, ac losses, hysteresis, test results
Ключевые слова: ITER, Tokamak, magnetic systems, insulation, failure analysis, arc, high voltage process
Miyoshi Y., Zhou J., Yang L., Wang P., Schild T., Ma X., Liao M., Cormany C., Che T., Zhu H., Jiang T., Bruton A., Shao L., Dao C.N.
Ключевые слова: ITER, central coils, coils solenoidal, installation, training effect, review
Mitchell N., Martovetsky N., Miyoshi Y., Decool P., Schild T., Smith J., Freudenberg K., Liao M., Everitt D., Cormany C., Che T., Zhu H., Jiang T., Potts R., Brun C., Bruton A., Vandergriff D., Shao L., Dao C.N., Wooley K., Norausky N., Guilliams V., Istomin A., Rathbun J.
Ключевые слова: Tokamak, ITER, central coils, coils solenoidal, installation, photo
Breschi M., Bauer P., Ilyin Y., Torre A., Turck B., Schild T., Gauthier F., Cavallucci L., Duchateau J.
Ключевые слова: ITER, central coils, coils solenoidal, coils poloidal field, ac losses, numerical analysis, plasma treatments, LTS, Nb3Sn, NbTi, cable-in-conduit conductor
Libeyre P., Mayri C., Jong C., Schild T., Smith J., Sgobba S., Freudenberg K., Guinchard M., Everitt D., Santillana I.A., Gaxiola E., Frutos O.S., Bennet J., Lourenco S.S.
Mitchell N., Martovetsky N., Miyoshi Y., Decool P., Jong C., Schild T., Smith J., Freudenberg K., Gauthier F., Liao M., Everitt D., Cormany C., Hughes D., Rossano G., Potts R., Stephens A., Bruton A., Mariani A., Vandergriff D., Dao C.N.
Ключевые слова: Tokamak, ITER, central coils, coils solenoidal, installation, compression, joints, joint resistances, bus bar conductor, fabrication
Martovetsky N., Miyoshi Y., Decool P., Schild T., Smith J., Everitt D., Jiolat G., Gaxiola E., Stephens A., Bruton A., Dao C.N., Torre A.*12
Ключевые слова: ITER, central coils, coils solenoidal, LTS, Nb3Sn, joints, fabrication, compression, deformation, design, loads, test results
Mitchell N., Zheng J., Vorpahl C., Corato V., Sanabria C., Segal M., Sorbom B., Slade R., Brittles G., Bateman R., Miyoshi Y., Banno N.7, Saito K.8, Kario A.9, Kate H.t., Bruzzone P.*10, Wesche R., Schild T., Bykovskiy N.11, Dudarev A., Mentink M., Mangiarotti F.J., Sedlak K.10, Evans D.12, Laan D.C.13, Weiss J.D., Liao M., Liu G.
Ключевые слова: fusion, review, magnets, hybrid systems, DEMO, HTS, REBCO, LTS, Nb3Sn, coils, react-and-wind technique, cables, switches, joints, insulating medium, CORC cables
Zanino R., Martovetsky N.N., Bonifetto R., Schild T., Gauthier F., Zappatore A., Khumthong K., Schaubel K.M., Sheeron J., Langhorn A.R.
Ключевые слова: ITER, central coils, thermal-hydraulics, cable-in-conduit conductor, pressure drop, test results, modeling
Mitchell N., Libeyre P., Martovetsky N., Decool P., Jong C., Schild T., Smith J., Freudenberg K., Everitt D., Cormany C., Gaxiola E., Reagan T., Pallisa J., Rossano G., Potts R., Stephens A., Brun C., Bruton A., Mariani A., Vandergriff D., Mullins D., Nguyen C.
Ключевые слова: ITER, central coils, coils solenoidal, fabrication, LTS, Nb3Sn, design, compression
Ключевые слова: MgB2/Ni/Monel, ex-situ process, react-and-wind technique, magnets, design, fabrication, test results, coils solenoidal, design parameters, coils insert, LTS, NbTi, mechanical properties, stress distribution, critical caracteristics, critical current, temperature dependence, magnetic field dependence
Mitchell N., Libeyre P., Martovetsky N., Levesy B., Decool P., Jong C., Dolgetta N., Hatfield D., Nunio F., Schild T., Sgobba S., Evans D., Reiersen W., Freudenberg K., Everitt D., Cormany C., Sanchez P.G., Gaxiola E., Aviles I., Chae T., Hughes D., Reagan T., Vallet J.C., Bruton A., Bedakihale V., Mariani A., Okugawa R., Vandergriff D.
Ключевые слова: ITER, central coils, fabrication, installation
Mitchell N., Libeyre P., Martovetsky N., Decool P., Jong C., Schild T., Smith J., Freudenberg K., Everitt D., Cormany C., Gaxiola E., Reagan T., Pallisa J., Rossano G., Mullins, Potts R., Stephens A., Brun C., Bruton A., Mariani A., Vandergriff D.
Ключевые слова: presentation, ITER, LTS, Nb3Sn, Rutherford cables, central coils, fabrication, design, review, photo, compression, joints
Bredy P., Scola L., Vedrine P., Bourquard A., Quettier L., Belorgey J., Lannou H., Payn A., Berriaud C., Gilgrass G., Nunio F., Schild T., Aubert G., Stepanov V., Dubois O., Moliniй F., Nusbaum M., Sinanna A., Billotte G., Schweitzer M., Juster F., Guihard Q., Jannot V.
Ключевые слова: MRI magnets, LTS, NbTi, helium superfluid, design, design, fabrication, cryogenic systems, shields, vacuum structure
Bredy P., Scola L., Vedrine P., Quettier L., Belorgey J., Lannou H., Molinie F., Payn A., Berriaud C., Gilgrass G., Nunio F., Schild T., Aubert G., Stepanov V., Dubois O., Nusbaum M., Sinanna A., Schweitzer M., Juster F., Bourquard A.-2
Ключевые слова: MRI magnets, fabrication, operational performance, status
Schild T., Aubert G., Belorgey J., Berriaud C., Bourquard A., Bredy P., Dubois O., Gilgrass G., Juster F.P., Lannou H., Molinie F., Nusbaum M., Nunio F., Payn A., Quettier L., Scola L., Sinanna A., Stepanov V., Vedrine P.
Ключевые слова: MRI magnets, coils pancake, stacked blocks, LTS, NbTi, helium superfluid, shields, design, status
Bredy P., Belorgey J., Lannou H., Schild T., Donati A., Touzery R., Dubois O., Sinanna A., Guiho P., Guihard Q., Lotode A.
Ключевые слова: MRI magnets, power supply, quench protection, cryogenic systems, control systems, operational performance, facility
Vedrine P., Quettier L., Berriaud C., Gilgrass G., Nunio F., Schild T., Aubert G., Nusbaum M., Schweitzer M., Dilasser G., Robson E.
Ключевые слова: MRI magnets, high field magnets, LTS, NbTi, fabrication, control systems, quality control
Vedrine P., Bourquard A., Quettier L., Berriaud C., Gilgrass G., Schild T., Stepanov V., Nusbaum M., Schweitzer M., Dilasser G., Oudot J.
Ключевые слова: MRI magnets, shields, coils, fabrication, status, LTS, NbTi, impregnation, vacuum structure, design, design parameters
Bredy P., Juster F.P., Scola L., Vedrine P., Bourquard A., Quettier L., Belorgey J., Lannou H., Molinie F., Payn A., Berriaud C., Gilgrass G., Nunio F., Schild T., Donati A., Aubert G., Stepanov V., Dubois O., Nusbaum M., Sinanna A.
Ключевые слова: MRI magnets, LTS, NbTi, coils pancake, fabrication, shields, cryogenic systems, cryostat
Scola L., Berriaud C., Juster F.-P., Schild T., Pasquet R., Forest F., Hilaire C., Porhiel A., Taleb A.
Bredy P., Juster F.P., Scola L., Vedrine P., Bourquard A., Quettier L., Belorgey J., Lannou H., Molinie F., Payn A., Berriaud C., Gilgrass G., Nunio F., Schild T., Donati A., Aubert G., Dubois O., Nusbaum M., Sinanna A., Elefant F.
Ключевые слова: MRI magnets, fabrication, LTS, NbTi, status
Vedrine P., Bourquard A., Quettier L., Berriaud C., Gilgrass G., Schild T., Stepanov V., Nusbaum M., Leboeuf R., Oudot J.L., Schweitzer M.
Ключевые слова: MRI magnets, coils, shielding effects, design, design parameters, fabrication, LTS, NbTi, insulation, impregnation
Ключевые слова: quench protection, minimum quench energy, normal zone propagation, stability, coils insert, design parameters, MgB2/Cu/Ni
Bredy P., Juster F.P., Scola L., Vedrine P., Bresson D., Meuris C., Maksoud W.A., Belorgey J., Lannou H., Molinie F., Payn A., Berriaud C., Gilgrass G., Bermond S., Nunio F., Schild T., Donati A., Aubert G., Beaudet F., Dubois O., Nusbaum M., Sinanna A.
Ключевые слова: MRI magnets, LTS, NbTi, coils pancake, fabrication, cryostat, control systems
Kanithi H., Juster F.P., Vedrine P., Payn A., Berriaud C., Gilgrass G., Bermond S., Dechambre T., Gheller J.M., Nunio F., Schild T.
Renard B., Molinie F., Genini L., Vieillard L., Schild T., Donati A., Dispau G., Gournay J.-F., Kuster O., Touzery R., Walter C.
Ключевые слова: measurement setup, cryogenic systems, magnets, electrical circuit, control systems, coils, high voltage process, facility
Juster F.P., Verwaerde C., Vedrine P., Rifflet J.M., Quettier L., Payn A., Berriaud C., Bermond S., Dechambre T., Gheller J.M., Lecrevisse T., Louchart O., Nunio F., Schild T.
Ключевые слова: LTS, NbTi, wires, design parameters, comparison, magnets, MRI magnets, critical caracteristics, critical current, geometry effects, Jc/B curves, stress effects, experimental results
Juster F.P., Meuris C., Maksoud W.A., Chesny P., Lannou H., Molinie F., Vieillard L., Schild T., Donati A.
Ключевые слова: LTS, NbTi, coils pancake, magnets, helium superfluid, quench properties, normal zone propagation, pressure effect, experimental results
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