Gomory F., Vogel M., Seiler E., Valizadeh R., Ries R., Malyshev O.B., Medvids A., Onufrijevs P., Pira C., Chyhyrynets E., Leith S.
Ключевые слова: LTS, Nb, rings, penetration depth, shielding current density, trapped field, pinning, numerical analysis
Ключевые слова: LTS, NbN, NbTi, films, design parameters, measurement technique, microwave devices, penetration depth, temperature dependence
Ключевые слова: gravity, measurement technique, weight, coils, spheres, temperature dependence, levitation performance, penetration depth, numerical analysis, modeling
Ключевые слова: HTS, bulk, single grain, rings, pulsed magnetization, flux jumps, penetration depth, modeling, current density, distribution, magnetic field distribution, trapped field
Awaji S., Izumi T., Kato T., Maiorov B., Miura M., Yoshida R., Nakaoka K., Kato Y., Harada T., Sekiya N., Maeda A., Sakuma K., Okada T., Nabeshima F., Tsuchiya G., Kurokawa H., Civale L.-8
Ключевые слова: HTS, GdBCO, coated conductors, tapes, width, penetration depth, permanent magnets, magnetic field distribution, experimental results, modeling
Ключевые слова: HTS, YBCO, GdBCO, bulk, electromagnetic forces, penetration depth, magnetic flux distribution, levitation performance, modeling, numerical analysis
Ключевые слова: HTS, tapes, ac losses, current-voltage characteristics, penetration depth, flux density, distribution, modeling, numerical analysis
Ogawa J., Sakai N., Yokoyama K., Oka T., Noudem J., Hassler W., Berger K., Miryala M., Yamanaka K., Dadiel L., Sudo K., Murakami M
Ключевые слова: MgB2, bulk, fabrication, hot pressing, doping, magnets, pulsed magnetization, trapped field, shielding effects, penetration depth, thickness dependence, experimental results
Ключевые слова: magnetic systems, conductors, degradation studies, penetration depth, stability, screening current, numerical analysis
Ключевые слова: HTS, YBCO, Bi2223, bulk, composition, losses, gamma irradiation, irradiation effects, penetration depth, experimental results, numerical analysis
Ключевые слова: HTS, Bi2223, tubes, penetration depth, pulsed operation, dynamic operation, trapped field, screening current, experimental results, numerical analysis
Ключевые слова: HTS, YBCO, coated conductors, tapes, shields, penetration depth, homogeneity, magnetic field density, coils solenoidal, experimental results, numerical analysis
Shi Y., Cardwell D.A., Durrell J.H., Ainslie M.D., Dennis A.R., Huang K.Y., Filipenko M., Srpcic J., Boll M., Perez F.
Ключевые слова: HTS, GdBCO, bulk, shielding current density, penetration depth, ac losses, trapped field, pinning, field decay, modeling, numerical analysis
Ogawa J., Nakamura T., Fukui S., Sato T., Yokoyama K., Oka T., Shimizu K., Takeda A., Higa K., Tsunoda S.
Ключевые слова: HTS, bulk, magnets, pulsed magnetization, trapped field, uniformity, penetration depth, flux density, distribution, experimental results
Ключевые слова: accelerator magnets, HTS, YBCO, coated conductors, CORC cables, design parameters, penetration depth, magnetization, design parameters, flux density
Felner I., Tsindlekht M.I., Genkin V.M., Zeides F., Katz N., Gazi S., Chromik .S., Kolacek J., Marysko M.
Ключевые слова: HTS, Bi2223, bulk, doping effect, pinning centers artificial, flux flow, magnetoresistivity, vortex dynamics, vortex structures, annealing process, measurement technique, critical temperature, irreversibility fields, upper critical fields, activation energies, penetration depth, experimental results, new
Ogawa J., Fukui S., Sato T., Yokoyama K., Oka T., Hassler W., Sasaki S., Scheiter J., Miura A., Takeda A., Katsuki J.
Ключевые слова: HTS, YBCO, films, bulk, trapped field, penetration depth, measurement technique, grain size, nanoscaled effects
Flukiger R., Bottura L., Scheuerlein C., Ballarino A., Spina T., Cerutti F., Ryazanov A., Shavkin S., Zubavichus Y., Svetogovov R.D., Degtyarenko P., Semenov Y., Senatore C*2., Cerny R.
Ключевые слова: H2S, penetration depth, fluctuations, thermal performance, high pressure processing
Ключевые слова: induction heating, ac performance, modeling, design, flux density, penetration depth
Ключевые слова: MgB2, wires round, PIT process, design parameters, fabrication, heat treatment, helium liquid, critical caracteristics, critical current, penetration depth, LTS, NbTi, HTS, Bi2212, comparison, experimental results
Ключевые слова: induction heating, coils, saturation, MgB2, penetration depth, numerical analysis, modeling
Takahashi K., Shi Y., Cardwell D.A., Fujishiro H., Ainslie M.D., Zhou D., Dennis A.R., Zou J., Mochizuki H., Namburi D.K.
Ключевые слова: HTS, bulk, DyBCO, magnets, pulsed magnetization, flux density, vortex dynamics, penetration depth, experimental results, temperature distribution
Ключевые слова: thin films, penetration depth, measurement technique
Ключевые слова: Bi2212, wires monofilamentary, wires round, twisting, ac losses, hysteresis, twist-pitch, penetration depth, temperature dependence, experimental results
Ключевые слова: HTS, YBCO, bulk, ac losses, frequency dependence, fabrication, experimental results, penetration depth, susceptibility
Ключевые слова: DI-Bi2223/Ag, wires, penetration depth, magnetic flux concentration, optical imaging, defects
Ключевые слова: plates, vortex interaction, penetration depth
Ключевые слова: modeling computational, twisting, self-field effect, current, penetration depth, ac losses
Ключевые слова: ac losses, helical winding, modeling, HTS, coated conductors, current, penetration depth, presentation
Ключевые слова: HTS, coated conductors, numerical analysis, ac losses, penetration depth, magnetic flux distribution
Ключевые слова: MgB2, bulk, mechanical properties, hardness, penetration depth, experimental results
Ключевые слова: HTS, YBCO, Bi2223, anisotropy, penetration depth, bulk, cylinders, spheres, numerical analysis, magnetic properties, dynamic operation
Vanderbemden P., Ausloos M., Vanderheyden B., Dirickx M., Denis S.(sdenis@ulg.ac.be)
Ключевые слова: HTS, bulk, tubes, penetration depth, shielding effects, numerical analysis, magnetic properties
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