Ключевые слова: measurement setup, facility, cryogenic systems, helium superfluid, cooling technology, cryostat, design, magnets, test results
Ключевые слова: HTS, REBCO, tapes, critical current, degradation studies, mechanical properties, strain effects, crack formation, fracture behavior, shunt, modeling, numerical analysis
Larbalestier D.C., Kvitkovic J., Parrell J.A., Hellstrom E.E., Jiang J., Trociewitz U.P., Huang Y., Kametani F., Shen T., Barua S., Hossain S.I., Oloye T.A., Bugaris D.E., Goggin C.
Ключевые слова: power equipment, condensers synchronous, transient performance, HTS, YBCO, coils racetrack, rotors, power reactive, design, design parameters
Jin F., Wang Y., Wang L., Li Y., Zhang L., Huang Y., Huang X., Dai Y., Bai X., Zhao L., Han X., Gao H., Xu S., Cheng Q., Zhang Q., Gu G., Zhou X., Zhou X., Wu Q., Wang N., Dong T., Liao L., Yue M.
Ключевые слова: HTS, Bi2212, bulk, tapes, environmental impact, degradation studies, Raman spectroscopy, resistivity, temperature dependence, microstructure
Ключевые слова: rotating machines, HTS, stators, design parameters, efficiency, modeling, flux density, frequency dependence, losses, numerical analysis
Ключевые слова: power equipment, power transmission lines, FCL resistive, dc performance, design, HTS, YBCO, tapes, coils bifilar, magnetic field distribution, electric field distribution, breakdown characteristics, cryogenic systems, critical caracteristics, current-voltage characteristics, switching process, test results
Wu X., Wang Z., Wang Z., Dai S., Huang Y., Song M., Tian B., Wang B., Chen T., Xia Y., Lv Z., Xie H.
Ключевые слова: measurement setup, test results, current-voltage characteristics, grid operation, HTS, YBCO, tapes, power equipment, cables triaxial, cables three-phase, design, fabrication, critical caracteristics, critical current, magnetic field dependence, fault currents, heat generation, current leads, termination, cryogenic systems, pressure drop
Ключевые слова: power equipment, power distribution system, hybrid systems, battery storage, SMES, control systems, modeling, numerical analysis
Larbalestier D.C., Parrell J.A., Hellstrom E.E., Jiang J., Trociewitz U.P., Huang Y., Kametani F., Barua S., Oz Y., Hossain S.I., Cooper J., Miller E., Oloye T.A.
Ключевые слова: power equipment, power transmission lines, dc performance, FCL resistive, HTS, YBCO, coated conductors, tapes, coils bifilar, design, design parameters, fabrication, test results
Ключевые слова: HTS, Bi2223, tapes multifilamentary, transport currents, fabrication, PIT process, phase formation, gas treatments, X-ray diffraction, composition, oxygenation treatments, microstructure, critical caracteristics, critical current, magnetic field dependence, pinning force, experimental results
Ключевые слова: ITER, substation, power supply, pulsed operation, power equipment, transformers, power losses, conventional systems, modeling, numerical analysis
Ключевые слова: HTS, bulk, disks, levitation performance, permanent magnets, displacements, time evolution, magnetic force, vibration, dynamic operation, modeling, numerical analysis
Ключевые слова: HTS, levitation performance, thermal performance, vibration, stability, modeling, numerical analysis, displacements, time evolution
Larbalestier D.C., Miao H., Parrell J.A., Hellstrom E.E., Jiang J., Trociewitz U.P., Huang Y., Sengupta S., Kametani F., Shen T., White M., Hunt A., Brown M.D., Bradford G., Hossain S.I., Cooper J., Miller E., Revur R.
Gourlay S., Miao H., Larbalestier D., Jiang J., Huang Y., Hellstrom E., Trociewitz U., Parrell J., Shen T., Prestemon S., White M., Davis D., Turqueti M., Hunt A., Bosque E., Higley H., Zhang M.W.
Ключевые слова: power equipment, power transmission lines, HTS, cables, nitrogen liquid , cryogen transfer line, heat transfer
Ciazynski D., Zani L., Huang Y., Lacroix B., Torre A., Nicollet S., Maksoud W.A., Tomarchio V., Decool P., Genini L., Hoa C., Vallcorba R., Coz Q.L., Bonne F., Vallet J.
Ключевые слова: Tokamak, coils toroidal, test results, LTS, NbTi, modeling, stability, quench
Ключевые слова: rotating machines, gear magnetic, HTS, bulk, new, design, design parameters, flux density, distribution, torque, numerical analysis
Ключевые слова: Tokamak, coils toroidal, test results, cooling technology, quench, cryogenic systems, cable-in-conduit conductor, facility
Ключевые слова: Tokamak, coils toroidal, quench, test results, cryogenic systems, operational performance
Ключевые слова: rotating machines, numerical analysis, modeling, magnets permanent, motors, design parameters, losses, thermal performance, rotational speed
Ключевые слова: HTS, YBCO, bulk, single grain, fabrication, joints, trapped field distribution, microstructure
Ключевые слова: insulating medium, cryogenic materials, multilayered structures, heat transfer
Ключевые слова: Bi2212, wires monofilamentary, wires round, twisting, ac losses, hysteresis, twist-pitch, penetration depth, temperature dependence, experimental results
Ключевые слова: HTS, Bi2212/Ag, wires multifilamentary, magnetization, twist-pitch, filaments, geometry effects, experimental results, length
Ключевые слова: HTS, REBCO, bulk, doping effect, fabrication, seeding technique, critical caracteristics, Jc/B curves
Ключевые слова: HTS, REBCO, bulk, doping effect, fabrication, growth rate
Ключевые слова: vehicle applications, propulsion system, magnetic field distribution, torque
Ключевые слова: HTS, YBCO, single grain, bulk, fabrication, seeding technique, REBCO, thin films, precursors, heat treatment
Larbalestier D.C., Scheuerlein C., Hong S., Miao H., Parrell J.A., Hellstrom E.E., Jiang J., Trociewitz U.P., Huang Y., Ghosh A.K., Di Michiel M.
Ключевые слова: patents, HTS, coated conductors, cap layers, solution techniques, YBCO, fabrication
Malagoli A., Larbalestier D.C., Scheuerlein C., Miao H., Parrell J.A., Hellstrom E.E., Jiang J., Huang Y., Kametani F., Michiel M.D., Shen T.
Ключевые слова: LTS, composites, wires, mechanical treatment, filaments, deformation, Nb3Sn, composition, texture, Nb-Cu, Nb, microstructure, fabrication
Ключевые слова: nitrogen liquid , cryogenic systems, heat transfer, measurement setup, boiling, bubbles
Ключевые слова: patents, HTS, coated conductors, critical caracteristics, critical current density, angular dependence, Jc/B curves, coils, fabrication
Ключевые слова: HTS, Bi2212, wires round, coils insert, LTS, Nb3Sn, NbTi, design, design parameters, quench properties, minimum quench energy, fabrication, test results, high field magnets
Godeke A., Acosta P., Cheng D., Dietderich D.R., Mentink M.G., Prestemon S.O., Sabbi G.L., Meinesz M., Hong S., Huang Y., Miao H., Parrell J.
Ключевые слова: HTS, cables, design parameters, accelerator magnets, ac losses, HTS, YBCO, coated conductors, measurement setup, power equipment, high field magnets
Ключевые слова: LTS, cable-in-conduit conductor, heat transfer, helium supercritical, modeling, numerical analysis
Ключевые слова: LTS, Nb3Sn, fabrication, internal tin method, precursors, microstructure, wires monofilamentary, roughness, mechanical properties, hardness
Schwartz J., Larbalestier D.C., Hong S., Czabaj B., Miao H., Meinesz M., Wang X., Trociewitz U.P., Knoll D.C., Huang Y., Markiewicz W.D.
Rupich M.W., Li X., Zhang W., Kodenkandath T., Strickland N.M., Huang Y., Xia J., Long N.J., Hoefakker P., Talantsev E.F.
Miller D.J., Maroni V.A., Li X., Zhang W., Kodenkandath T., Chen Z., Holesinger T.G., Larbalestier D.C., Feenstra R., Coulter J.Y., Civale L., Maiorov B., Feldmann D.M., Huang Y.
Ключевые слова: HTS, YBCO, coated conductors, nanoscaled effects, microstructure, chemical solution deposition, fabrication, nucleation, porosity, critical current, n-value, homogeneity, thickness dependence, pinning force, MOD process, critical current density, angular dependence, RABITS process, PLD process, Jc/B curves, critical caracteristics
Lu Y., Wang L., Wang S., Zhang Y., Zhang L., Wang J., Zeng Y., Deng C., Song H., Zheng J., Liu L., Li J., Liu M., Huang Y., Deng Z., Zhang J., Jing H., He Q., Ma G., Qin Y.
Ключевые слова: Maglev system, electromagnetic launch, HTS, YBCO, bulk, model small-scale, experimental results
Rupich M.W., Li X., Zhang W., Kodenkandath T., Strickland N.M., Huang Y., Xia J.A.(j.xia@irl.cri.nz), Long N.J., Hoefakker P., Talantsev E.F.
Ключевые слова: HTS, YBCO, doping effect, coated conductors, MOD process, defects, critical current density, angular dependence, fabrication, critical caracteristics
Rupich M.W., Li X., Zhang W., Kodenkandath T., Holesinger T.G., Coulter J.Y., Civale L., Maiorov B., Huang Y.
Rupich M.W., Thieme C.L., Schoop U., Li X., Zhang W., Kodenkandath T., Nguyen N., Siegal E., Buczek D., Lynch J., Verebelyi D.T., Aized D., Huang Y., King C., Carter W., Schreiber J., Prasova M., Tucker D., Harnois R.
Rupich M.W., Li X., Zhang W., Kodenkandath T., Strickland N.M., Huang Y., Xia J., Long N.J., Kennedy J., Markwitz A., Zondervan A.
Ключевые слова: HTS, YBCO, MOD process, coated conductors, ion irradiation, defects, critical current, angular dependence, pinning, experimental results, critical caracteristics, fabrication
Zhang W., Huang Y., Li X., Kodenkandath T., Rupich M.W., Schoop U., Verebelyi D.T., Thieme C.L., Siegal E., Holesinger T.G., Maiorov B., Civale L., Miller D.J., Maroni V.A., Li J., Martin P.M., Specht E.D., Goyal A., Paranthaman M.P.
Miller D.J., Maroni V.A., Rupich M.W., Li X., Kodenkandath T., Holesinger T.G., Civale L., Maiorov B., Huang Y., Arenal R.
Rupich M.W., Schoop U., Thieme C., Li X., Zhang W., Kodenkandath T., Nguyen N., Siegal E., Jia Q.X., Verebelyi D.T., Chen Z., Holesinger T.G., Larbalestier D.C., Civale L., Maroni V., Maroni V., Huang Y., Rane M.V., Rane M.V., Feldman D.M.
Rupich M.W., Thieme C.L., Schoop U., Li X., Zhang W., Kodenkandath T., Nguyen N., Siegal E., Buczek D., Lynch J., Verebelyi D.T., Fleshler S., Huang Y., Carter W., Schreiber J., Prasova M., Tucker D.
Ключевые слова: HTS, YBCO, coated conductors, MOD process, pinning, defects, microstructure, doping effect, presentation, fabrication
Li X., Feenstra R., Civale L., Holesinger T., Larbalestier D., Huang Y., Rupich M, Coulter Y., Feldmann M.
Ключевые слова: HTS, bulk, levitation performance, levitation performance, modeling, numerical analysis, Maglev system, guidance
Ключевые слова: HTS, Bi2212, films thick, substrate Ag, coatings, fabrication
Ключевые слова: patents, HTS, fabrication, Bi2223, PIT process, tapes multifilamentary
Ключевые слова: HTS, Bi2223/Ag, overpressure processing, review, critical current density, fabrication, critical caracteristics
Li X., Zhang W., Kodenkandath T., Rupich M., Huang Y., Long N., Strickland N., Chapman B., Ross N., Xia J.
Ключевые слова: HTS, YBCO, coated conductors, nanodoping, pinning centers, Jc/B curves, angular dependence, defects, experimental results, critical caracteristics
Orris D.F., Feher S., Huang Y., Pischalnikov Y., Sylvester C., Tartaglia M.A.(tartaglia@fnal.gov), Carcagno R.H., Rabehl R.J., Zbasnik J.
Ключевые слова: test results, current leads, HTS, Bi2223/Ag alloy, tapes, magnets, LHC, test results, power equipment
Carcagno R., Feher S., Tartaglia M., Huang Y., Orris D., Pischalnikov Y., Sylvester C., Rabehl R.(rabehl@fnal.gov)
Ключевые слова: test results, HTS, current leads, LHC, magnetic systems, cryogenic systems, measurement setup, new, facility
Maroni V.A., Holesinger T.G., Larbalestier D.C., Hellstrom E.E., Jiang J., Yuan Y., Cai X.Y., Huang Y., Liao S., Kennison J.A., Baurceanu R.M.
Ключевые слова: HTS, Bi2223/Ag, tapes multifilamentary, fabrication, microstructure, phase formation, tapes monofilamentary
Maroni V.A., Holesinger T.G., Larbalestier D.C., Polyanskii A.A., Hellstrom E.E., Jiang J., Yuan Y., Cai X.Y., Huang Y.
Ключевые слова: HTS, Bi2223/Ag, tapes multifilamentary, heat treatment, phase composition, Bi2212, microstructure, experimental results
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