Ключевые слова: magnets quadrupole, synchrotron, cryogenic systems, cryostat, design, design parameters
Ключевые слова: wiggler, core iron, synchrotron, design, LTS, NbTi, coils racetrack, supporting structure, eddy currents, heat generation, magnetic field distribution, numerical analysis
Ключевые слова: large-scale applications, HTS, LTS, MgB2, medical applications, NbTi, Nb3Sn, NMR magnet, MRI magnets, MEG magnets, magnetic separation, synchrotron, fusion magnets, gyrotron, ITER, power equipment, cables, FCL, SMES, rotating machines, transformers, Maglev system, hybrid systems, review, presentation, high field magnets
Volpini G., Fabbricatore P., Musenich R., Gambardella U., Farinon S., Marabotto R., Bellomo G., Sorbi M., Alessandria F., Leone A., Paccalini A., Pedrini D., Quadrio M., Todero M.
Ключевые слова: magnets dipole, synchrotron, design, cryogenic systems, cryostat, pulsed operation, training effect, test results
Volpini G., Fabbricatore P., Musenich R., Gambardella U., Farinon S., Marabotto R., Bellomo G., Sorbi M., Muller H., Alessandria F.
Ключевые слова: synchrotron, magnets dipole, design, design parameters, LTS, NbTi, Rutherford cables, cryogenic systems, model small-scale
Kikuchi A., Tsuchiya K., Takeuchi T., Scheuerlein C., Nakamoto T., Ballarino A., Nakagawa K., Di Michiel M., Jin X.
Ключевые слова: LTS, Nb3Al, fabrication, wires multifilamentary, precursors, measurement technique, synchrotron, X-ray diffraction, heat treatment, phase composition
Ключевые слова: HTS, coated conductors, YBCO, RABITS process, MOD process, synchrotron, X-ray diffraction, lattice parameter, pinning, defects, experimental results, critical caracteristics, new
Ключевые слова: synchrotron, status, magnets dipole, magnets quadrupole, accelerator magnets, cooling technology, stability, LTS, high field magnets
Awaji S., Sugano M., Watanabe K., Izumi T., Sato M., Machi T., Yoshizumi M., Oguro H., Suzuki T., Machiya S., Koganezawa T., Suwa T.
Ключевые слова: HTS, REBCO, YBCO, coated conductors, mechanical properties, twin boundaries, microstructure, synchrotron, stress distribution, strain effects, experimental results
Osamura K., Awaji S., Sugano M., Watanabe K., Sato M., Oguro H., Machiya S., Koganezawa T., Shobu T.
Ключевые слова: LTS, wires, strain effects, mechanical properties, synchrotron, measurement setup, stress effects, experimental results
Osamura K., Nishijima G., Awaji S., Sugano M., Watanabe K., Izumi T., Shiohara Y., Sato M., Ibi A., Yoshizumi M., Oguro H., Suzuki T., Machiya S., Minegishi K., Koganezawa T., Shobu T.
Ключевые слова: accelerator magnets, synchrotron, modeling, design, high field magnets
Specht E.D., Yao H., Jia Q.X., MacManus-Driscoll J.L., Maiorov B., Li Q., Solovyov V.F., Haugan T.J., Si W.
Ключевые слова: HTS, YBCO, films thick, strain effects, defects, pinning, synchrotron, X-ray diffraction, nanoscaled effects, nanodoping, nanorods, nanoparticles, PLD process, substrate SrTiO3, substrate LaAlO3, TFA route, buffer layers, critical caracteristics, critical current density, mechanical properties, strain effects, aspect ratios
Fischer E., Shcherbakov P., Schnizer P., Mierau A., Wilfert S., Macavei J., Koch S., Weiland T., Kurnishov R.
Bogdanov I., Kozub S., Shcherbakov P., Shirshov L., Slabodchikov P., Sytnik V., Pokrovsky V., Kashtanov E., Smirnov V.
Smirnov A., Khodzhibagiyan H., Kuznetsov G., Trubnikov G., Bazanov A., Donyagin A., Galimov A., Karpinsky V., Nikitaev P.
Ключевые слова: synchrotron, magnets dipole, cryogenic systems, test results, LTS, NbTi, cables, prototype, accelerator magnets, quench current, ac losses, high field magnets
Ключевые слова: accelerator magnets, synchrotron, coils toroidal, numerical analysis, high field magnets
Ключевые слова: LHC, magnets dipole, synchrotron, design parameters, ac losses, magnetic field distribution, new
Ключевые слова: undulator, LTS, NbTi, wires, test results, synchrotron, shimming
Ключевые слова: undulator, LTS, Nb3Sn, wires multifilamentary, strands, helical winding, modeling, numerical analysis, magnetic field distribution, insulation, synchrotron
Khodzhibagiyan H.G., Kovalenko A.D., Akishin P.G., Bychkov A.V., Kozlov O.S., Kuznetsov G.L., Meshkov I.N., Mikhaylov V.A., Muravieva E.V., Shabunov A.V., Starikov A.Y., Trubnikov G.V.
Ключевые слова: accelerator magnets, synchrotron, design parameters, design, LTS, NbTi, cables, power equipment, high field magnets
Volpini G., Fabbricatore P., Musenich R., Gambardella U., Farinon S., Bellomo G., Sorbi M., Alessandria F.
Volpini G., Fabbricatore P., Musenich R., Gambardella U., Farinon S., Marabotto R., Bellomo G., Sorbi M., Alessandria F.
Ключевые слова: accelerator magnets, synchrotron, magnets dipole, design, coils model, design parameters, high field magnets
Ключевые слова: LTS, Nb3Sn, fabrication, nucleation, strands, wires multifilamentary, measurement technique, synchrotron, upper critical fields
Malagoli A., Larbalestier D.C., Scheuerlein C., Hellstrom E.E., Jiang J., Kametani F., Di Michiel M., Scheel M.
Ключевые слова: helium liquid, cryostat, cryogenic systems, synchrotron, design, dynamic operation
Ключевые слова: measurement technique, mechanical properties, strain effects, composites, synchrotron, HTS, REBCO, coated conductors, experimental results
Ключевые слова: synchrotron, magnets, operational performance, design, modeling, numerical analysis
Shikov A., Fischer E., Potanina L., Moritz G., Khodzhibagiyan H., Kovalenko A., Mueller H., Pantsyrny V., Salunin N., Gubkin I., Korpusov V.
Ключевые слова: LTS, NbTi, wires, magnets, synchrotron, fabrication, mechanical properties, ac losses, cables, model small-scale, test results, power equipment
Ключевые слова: HTS, YBCO, mechanical properties, strain effects, coated conductors, measurement technique, synchrotron
Ключевые слова: SMES, synchrotron, design parameters, economic analysis, power equipment
Osamura K., Nakao F.(fumi.nakao@materials.mbox.media.kyoto-u.ac.jp)
Ключевые слова: HTS, Bi2223, phase formation, measurement technique, synchrotron
Shintomi T., Ise T.(ise@pwr.eng.osaka-u.ac.jp), Furukawa K., Kobayashi Y., Kumagai S., Sato H.
Ключевые слова: SMES, synchrotron, numerical analysis, modeling, power equipment
Khodzhibagiyan H.(hamlet@sunhe.jinr.ru), Alexeev V., Averichev S., Drobin V., KovalenkoA., Smirnov A., Starikov A., Vladimirova N., Moritz G.(G.Moritz@gsi.de), Fischer E., Potanina L., Shikov A.(vip@bochvar.ru), Vedernikov G.
Ключевые слова: LTS, NbTi, cables, design, magnets, synchrotron, power equipment, new
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