Ogitsu T., Sugano M., Tanaka K., Takahashi N., Nakamoto T., Suzuki K., Kimura N., Todesco E., Perez J.C., Okada R., Ikemoto Y., Okada N., Kawamata H.
Ключевые слова: LHC, luminosity, upgrade, LTS, NbTi, magnets dipole, separator, quench, training effect, test results
Ogitsu T., Sugano M., Nakamoto T., Ichihara T., Terashima A., Suzuki K., Felice H., Kimura N., Todesco E., Kido S., Chiba T., Perez J.C., Ramos D., Prin H., Ikemoto Y., Okada N., Yanagisawa M.
Ключевые слова: LHC, luminosity, upgrade, prototype, separator, magnets dipole, cold mass
Ogitsu T., Nishijima G., Awaji S., Sugano M., Hopkins S.C., Kawashima S., Ballarino A., Nakamoto M., Dhakarwal M.
Ключевые слова: transverse stress, compression, loads, microstructure, FCC, colliders, LTS, Nb3Sn, wires, design parameters, critical caracteristics, mechanical effects, strain effects
Ogitsu T., Sasaki K., Ohuchi N., Okamura T., Makida Y., Ohhata H., Aoki M., Yoshida M., Iio M., Mihara S., Arimoto Y., Aoki K., Kurosawa N., Oonaka M., Sumi N.
Ключевые слова: MRI magnets, magnetic field distribution, homogeneity, shimming, numerical analysis
Ключевые слова: accelerator magnets, quality control, modeling, numerical analysis
Ogitsu T., Sasaki K., Sugano M., Tanaka K., Takahashi N., Nakamoto T., Terashima A., Suzuki K., Kimura N., Iida M., Todesco E., Chiba T., Okada R., Musso A., Ikemoto Y., Okada N., Kawamata H., Ohata H., Horikoshi A., Yanagisawa M.
Ключевые слова: LHC, luminosity, upgrade, LTS, NbTi, accelerator magnets, magnets dipole, prototype, design, design parameters, fabrication, test results, quench current, mechanical properties, stress effects, cryogenic systems
Ogitsu T., Sasaki K., Sugano M., Tanaka K., Takahashi N., Nakamoto T., Suzuki K., Kimura N., Todesco E., Okada R., Musso A., Ikemoto Y., Okada N., Kawamata H., Ohata H.
Ключевые слова: LHC, luminosity, magnets dipole, magnetic separation, LTS, NbTi, prototype, fabrication, cryogenic systems, magnetic properties, measurement technique, test results
Ключевые слова: MRI magnets, homogeneity, shimming, plates, test results
Ogitsu T., Sasaki K., Sugano M., Tanaka K., Takahashi N., Nakamoto T., Suzuki K., Kimura N., Higashi N., Iida M., Todesco E., Ikeda H., Okada R., Musso A., Ikemoto Y., Okada N., Kawamata H., Ohata H.
Ключевые слова: LHC, luminosity, magnets dipole, design parameters, LTS, NbTi, quench protection, heater, 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
Ogitsu T., Sasaki K., Sugano M., Tanaka K., Takahashi N., Nakamoto T., Suzuki K., Kimura N., Higashi N., Iida M., Ohhata H., Todesco E., Okada R., Musso A., Ikemoto Y., Okada N., Kawamata H., Enomoto S.
Ключевые слова: LHC, upgrade, LTS, NbTi, magnets dipole, luminosity, coils, mechanical treatment, stress effects, fabrication, training effect, numerical analysis, quench current
Amemiya N., Ogitsu T., Ishii Y., Iwata Y., Takayama S., Noda K., Yoshimoto M., Sogabe Y., Inoue S., Luo X.
Amemiya N., Ogitsu T., Miyazaki H., Kurusu T., Koyanagi K., Ishii Y., Iwata Y., Takayama S., Kubo Y., Iwai S., Noda K., Yoshimoto M., Orikasa T.
Ogitsu T., Sugano M., Nakamoto T., Suzuki K., Kimura N., Higashi N., Iida M., Todesco E., Okada R., Musso A., Ikemoto Y., Okada N., Kawamata H., Enomoto S., Ohata H.
Ключевые слова: LHC, luminosity, magnets dipole, quench properties, prototype, test results, magnetic field distribution
Ogitsu T., Sasaki K., Sugano M., Tanaka K., Tanaka K., Takahashi N., Nakamoto T., Suzuki K., Kimura N., Higashi N., Iida M., Ohhata H., Ikeda H., Okada R., Musso A., Ikemoto Y., Okada N., Kawamata H.
Ogitsu T., Sasaki K., Sugano M., Tanaka K., Takahashi N., Nakamoto T., Suzuki K., Kimura N., Higashi N., Iida M., Todesco E., Okada R., Musso A., Ikemoto Y., Okada N., Kawamata H., Enomoto S., Ohata H.
Ключевые слова: LHC, luminosity, magnets dipole, model small-scale, training effect, mechanical properties, LTS, NbTi, quench current, stress effects, coils, deformation, experimental results, upgrade
Ключевые слова: insulating medium, thermal conductivity, irradiation effects, gamma irradiation, cryogenic systems, coils
Tommasini D., Arbelaez D.*11, Auchmann B., Bajas H., Bajko M., Ballarino A., Barzi E.*10, Bellomo G., Benedikt M., Bermudez S.I., Bordini B., Bottura L., Brower L.*11, Buzio M., Caiffi B., Caspi S.*11, Dhalle M., Durante M., DeRijk G., Fabbricatore P., Farinon S., Ferracin P., Gao P., Gourlay S.*11, Juchno M.*11, Kashikhin V.*10, Lackner F., Lorin C., Marchevsky M.*11, Marinozzi V., Martinez T., Munilla J., Novitski I.*10, Ogitsu T., Ortwein R., Perez J.C., Petrone C., Prestemon S.*11, Prioli M., Rifflet J., Rochepault E., Russenschuck S., Salmi T., Savary F., Schoerling D., Segreti M., Senatore C., Sorbi M., Stenvall A., Todesco E., Toral F., Verweij A.P., Wessel S., Wolf F., Zlobin A.V.*10
Ключевые слова: accelerator magnets, design, measurement setup, iron yoke, homogeneity, LTS, NbTi, bulk, modeling, numerical analysis, design parameters, magnetic field distribution, muon
Ogitsu T., Sugano M., Nakamoto T., Suzuki K., Kimura N., Higashi N., Iida M., Todesco E., Okada R., Musso A., Ikemoto Y., Okada N., Kawamata H., Enomoto S., Ohata H.
Ключевые слова: LHC, luminosity, magnets dipole, coils model, quench protection, heater, LTS, NbTi, Rutherford cables, design parameters, hot spots, current decay, transport currents, test results, numerical analysis, upgrade
Ogitsu T., Sasaki K., Sugano M., Tanaka K., Takahashi N., Nakamoto T., Suzuki K., Kimura N., Higashi N., Iida M., Ohhata H., Todesco E., Okada R., Musso A., Ikemoto Y., Okada N., Kawamata H., Enomoto S.
Ключевые слова: LHC, luminosity, upgrade, magnets dipole, saturation, iron yoke, magnetic field distribution, experimental results, numerical analysis
Amemiya N., Ogitsu T., Miyazaki H., Kurusu T., Koyanagi K., Takami S., Ishii Y., Suzuki K., Iwata Y., Obana T., Takayama S., Noda K., Orikasa T.
Ogitsu T., Sasaki K., Sugano M., Tanaka K., Takahashi N., Nakamoto T., Kimura N., Higashi N., Iida M., Ohhata H., Sugawara S., Todesco E., Okada R., Musso A., Okada N., Kawamata H., Enomoto S.
Ключевые слова: LHC, luminosity, magnets dipole, LTS, NbTi, prototype, magnetic field density, measurement technique, magnetic field distribution, upgrade
Tommasini D., Auchmann B., Bajas H., Bajko M., Ballarino A., Bellomo G., Benedikt M., Bermudez S.I., Bordini B., Bottura L., Buzio M., Dhalle M., Durante M., Rijk G.d., Fabbricatore P., Farinon S., Ferracin P., Gao P., Lackner F., Lorin C., Marinozzi V., Martinez T., Munilla J., Ogitsu T., Ortwein R., Perez J., Prioli M., Rifflet J., Rochepault E., Russenschuck S., Salmi T., Savary F., Schoerling D., Segreti M., Senatore C., Sorbi M., Stenvall A., Todesco E., Toral F., Verweij A.P., Volpini G., Wessel S., Wolf F.
Ключевые слова: FCC, magnets dipole, LTS, Nb3Sn, coils racetrack, model small-scale, design parameters
Ogitsu T., Sasaki K., Sugano M., Okamura T., Yang Y., Nakamoto T., Makida Y., Terashima A., Ki T., Yoshida M., Iio M., Mihara S., Kawamata H.
Ogitsu T., Sasaki K., Sugano M., Tanaka K., Takahashi N., Nakamoto T., Kimura N., Higashi N., Iida M., Sugawara S., Todesco E., Okada R., Musso A., Okada N., Kawamata H., Enomoto S., Ohata H.
Ключевые слова: LHC, luminosity, coils model, fabrication, test results, magnets dipole, quench properties, LTS, NbTi, design, design parameters, mechanical properties, stress distribution, strain effects, training effect, upgrade
Amemiya N., Ogitsu T., Tasaki K., Kurusu T., Koyanagi K., Ishii Y., Iwata Y., Takayama S., Kubo Y., Orikasa T.
Ключевые слова: accelerator magnets, status, design, magnetic systems, magnets quadrupole, upgrade
Ключевые слова: magnets dipole, HTS, coated conductors, magnetization, modeling, current density, distribution, design parameters, quality control
Ogitsu T., Sasaki K., Sugano M., Nakamoto T., Kimura N., Higashi N., Todesco E., Xu Q., Okada R., Musso A., Ikemoto Y., Okada N., Kawamata H., Enomoto S.
Ключевые слова: LHC, magnets dipole, model small-scale, LTS, NbTi, mechanical properties, stress effects, strain effects, fabrication, iron yoke, upgrade
Ogitsu T., Sasaki K., Sugano M., Takahashi N., Nakamoto T., Kimura N., Higashi N., Todesco E., Xu Q., Okada R., Musso A., Ikemoto Y., Okada N., Kawamata H., Enomoto S.
Ключевые слова: LHC, luminosity, magnets dipole, irradiation effects, design, design parameters, LTS, NbTi, iron yoke, fabrication, status, upgrade
Ключевые слова: rotating machines, MRI magnets, medical applications, HTS, magnets, REBCO, coated conductors, design parameters, homogeneity, magnetic field distribution, coils saddle, winding techniques, critical caracteristics, current-voltage characteristics, model small-scale, fabrication, gantry
Ключевые слова: accelerator magnets, coils model, HTS, YBCO, coated conductors, medical applications, cryocoolers, design parameters, design, experimental results
Ogitsu T., Sasaki K., Sugano M., Okamura T., Yang Y., Nakamoto T., Makida Y., Ki T., Yoshida M., Iio M., Mihara S.
Ключевые слова: cryogenic systems, accelerator magnets, coils solenoidal, design parameters, helium liquid, heat loads, pressure drop, status
Ключевые слова: measurement setup, magnetic sensors, accelerator magnets, NMR magnet, Hall sensor, measurement technique
Amemiya N., Ogitsu T., Tasaki K., Kurusu T., Koyanagi K., Tosaka T., Ishii Y., Suzuki K., Iwata Y., Takayama S., Noda K.
Ключевые слова: HTS, magnets, thermal stability, conduction cooled systems, rotating machines, coated conductors, thermal runaway, medical applications, coils, design, magnetic field distribution, critical caracteristics, critical current, magnetic field dependence, angular dependence, numerical analysis, gantry
Amemiya N., Ogitsu T., Nakamura T., Mori Y., Kurusu T., Ishii Y., Yoshimoto M., Sogabe Y., Saka Y., Tominaga N.
Ключевые слова: accelerator magnets, medical applications, HTS, coated conductors, coils pancake, numerical analysis, design, modeling, magnetization
Amemiya N., Ogitsu T., Tasaki K., Kurusu T., Koyanagi K., Tosaka T., Ishii Y., Suzuki K., Iwata Y., Takayama S., Noda K.
Ключевые слова: HTS, coated conductors, magnets dipole, accelerator magnets, multipole magnets, harmonic coefficients, magnetization, GdBCO, numerical analysis, design parameters, coils racetrack, experimental results, flux density, hysteresis, modeling, critical caracteristics, critical current density, current distribution, high field magnets
Amemiya N., Ogitsu T., Mori Y., Kurusu T., Koyanagi K., Iwata Y., Sano T., Zhang Z., Noda K., Yoshimoto M., Sogabe Y.
Ogitsu T., Sasaki K., Sugano M., Nakamoto T., Kimura N., Higashi N., Todesco E., Idesaki A., Xu Q., Yoshida M., Iio M., Iwasaki R., Ikemoto Y., Okada N., Kawamata H., Enomoto S.
Ключевые слова: LHC, magnets dipole, modeling, LTS, NbTi, design, design parameters, mechanical properties, stress effects, numerical analysis, irradiation effects, coils, fabrication, model small-scale, upgrade
Kikuchi A., Ogitsu T., Tsuchiya K., Sugano M., Takeuchi T., Barzi E., Tanaka K., Takahashi N., Nakamoto T., Sasaki K.-I., Yamamoto A., Terashima A., Sabbi G., Zlobin A., Kimura N., Higashi N., Xu Q., Okada R., Ikemoto Y., Lio M., Enomoto S.
Ogitsu T., Sugano M., Okamura T., Yang Y., Nakamoto T., Sasaki K.-I., Makida Y., Yoshida M., Iio M., Mihara S., Fukao Y.
Amemiya N., Ogitsu T., Tasaki K., Kurusu T., Koyanagi K., Ishii Y., Takayama S., Noda K., Yamaguchi A.
Ключевые слова: HTS, coils, conduction cooled systems, medical applications, thermal conductivity, thermal runaway, modeling, gantry
Ключевые слова: HTS, coils, winding techniques, deformation, magnets dipole, design
Ключевые слова: accelerator magnets, LHC, magnets dipole, design parameters, magnetic field distribution, coils saddle, cables, high field magnets, new, upgrade
Orris D.F., Page T., Poloubotko V., Rabehl R., Soyars W., Sylvester C., Tartaglia M.A., Yamamoto A., Yoshida M., Carcagno R., Feher S., Hays S., Hemmati A., Kashikhin V.V., Kim M.J., Kokoska L., Lamm M.J., Makida Y., Nogiec J., Ogitsu T.
Ключевые слова: coils solenoidal, conduction cooled systems, prototype, test results, design, plans, detector, LTS, NbTi, helium liquid, HTS, current leads
Amemiya N., Ogitsu T., Sato S., Suzuki S., Arai H., Iwata Y., Fujita T., Obana T., Takayama S., Murakami T., Hara Y., Noda K., Orikasa T., Shirai T., Furukawa T., Mizushima K., Mori S., Shouda K., Fujimoto T.
Ogitsu T., Okamura T., Adachi T., Makida Y., Ohhata H., Ikedo Y., Miyake Y., Shimomura K., Strasser P., Kawamura N., Koda A., Yoshida M., Orikasa T., Okada R., Kadono R., Fujimori H., Nishiyama K.
Kikuchi A., Ogitsu T., Tsuchiya K., Ito T., Takeuchi T., Nakamoto T., Yamamoto A., Harjo S., Jin X., Tomota Y.
Ключевые слова: LTS, Nb3Al, RHQT-process, fabrication, heat treatment, lattice parameter, neutron diffraction, mechanical properties, strain effects
Ogitsu T., Sasaki K., Sugano M., Okamura T., Yamamoto A., Kimura N., Shimomura K., Saito N., Ohkubo R., Kume T., Okada R.
Ключевые слова: experimental devices, coils solenoidal, homogeneity, cryogenic systems, vibration, frequency dependence, heat transfer, current leads, HTS, bulk, muon
Kikuchi A., Ogitsu T., Tsuchiya K., Ito T., Takeuchi T., Nakamoto T., Yamamoto A., Harjo S., Jin X., Tomota Y.
Ключевые слова: LTS, Nb3Al, wires multifilamentary, RHQT-process, fabrication, heat treatment, cycling, lattice parameter, temperature dependence, neutron diffraction
Ключевые слова: LHC, magnets dipole, accelerator magnets, LTS, NbTi, coils, design parameters, iron yoke, supporting structure, mechanical properties, stress effects, design, high field magnets, upgrade
Gupta R., Muratore J., Parker B., Wanderer P., Jain A., Charrier J., Boussuge T., Kakuno H., Ogitsu T., Makida Y., Nakamoto T., Sasaki K., Araoka O., Fujii Y., Iida M., Ishii T., Iwasaki R., Kimura N., Kobayashi T., Nakadaira T., Nakayoshi K., Ohhata H., Okamura T., Okada R., Sakashita K., Shibata M., Sugano M., Yoshida M., Anerella M., Escallier J., Ganetis G., Ghosh A.
Ключевые слова: accelerator magnets, status, magnetic systems, design, cryogenic systems, joints, quench, recovery characteristics, LTS, NbTi, high field magnets, beam lines
Kikuchi A., Ogitsu T., Sasaki K., Tsuchiya K., Takeuchi T., Barzi E., Yamada R., Zlobin A.V., Caspi S., Ferracin P., Nakamoto T., Yamamoto A., Terashima A., Felice H., Sabbi G., Higashi N., Xu Q., Iio M., Hafalia R.R.
Amemiya N., Ogitsu T., Nakamura T., Mori Y., Kurusu T., Koyanagi K., Iwata Y., Noda K., Yoshimoto M., Otake H., Goda K.
Ключевые слова: HTS, coated conductors, accelerator magnets, magnets dipole, magnets quadrupole, hybrid systems, mechanical effects, design, high field magnets
Ключевые слова: accelerator magnets, design, measurement technique, coils solenoidal, supporting structure, LTS, NbTi, strands, high field magnets, muon
Kikuchi A., Ogitsu T., Tsuchiya K., Ito T., Takeuchi T., Hemmi T., Nakamoto T., Yamamoto A., Harjo S., Jin X.
Ключевые слова: LTS, Nb3Al, wires, mechanical properties, strain effects, neutron diffraction, measurement technique
Ogitsu T., Sasaki K., Okamura T., Kobayashi T., Nakamoto T., Yamamoto A., Makida Y., Kimura N., Ohhata H., Fazilleau P., Queinec Y., Charrier J., Allard J., Anstett D., Bargueden P., Boussuge T., Bouty A., Dubois O., Durand G., Gibier D., Gournay J., Pouhalec P.L., Loiseau D., Lotrus P., Moliniй F., Pinvidic B., Zito M.
Ключевые слова: magnetic systems, accelerator magnets, quench detection, control systems, high field magnets, safety, beam lines
Kikuchi A., Ogitsu T., Sasaki K., Tsuchiya K., Takeuchi T., Nakamoto T., Yamamoto A., Terashima A., Todesco E., Xu Q.
Ключевые слова: accelerator magnets, LHC, design, magnets dipole, LTS, Nb3Al, NbTi, Nb3Sn, numerical analysis, critical caracteristics, Jc/B curves, design parameters, supporting structure, high field magnets, upgrade
Ключевые слова: accelerator magnets, HTS, coated conductors, medical applications, design, design parameters, modeling, numerical analysis, high field magnets
Amemiya N., Ogitsu T., Nakamura T., Takahashi K., Mori Y., Koyanagi K., Yoshiyuki T., Noda K., Yoshimoto M., Otake H., Osanai A.
Amemiya N., Kikuchi A., Ogitsu T., Sasaki K., Tsuchiya K., Takeuchi T., Nakamoto T., Yamamoto A., Terashima A., Nakagawa K., Xu Q., Yoshida M., Jin X., Iio M.
Kikuchi A., Ogitsu T., Tsuchiya K., Awaji S., Ito T., Takeuchi T., Nakamoto T., Yamamoto A., Oguro H., Harjo S., Jin X.
Ogitsu T., Andreev N., Lamm M., Tanaka K., Tartaglia M., Nakamoto T., Yamamoto A., Kashikhin V.S., Chlachidze G., Makarov A., Yoshida M., Evbota D.
Ключевые слова: LTS, NbTi, coils solenoidal, stabilizing layers, design, fabrication, test results, quench current, Rutherford cables, temperature distribution
Ключевые слова: coils solenoidal, measurement setup, LTS, NbTi, design parameters, winding techniques, fabrication
Ogitsu T., Sasaki K., Okamura T., Ishii T., Kobayashi T., Suzuki S., Nakamoto T., Anerella M., Ganetis G., Ghosh A., Muratore J., Wanderer P., Yamamoto A., Fujii Y., Makida Y., Escallier J., Parker B., Kimura N., Higashi N., Iida M., Ohhata H., Shibata M., Araoka O., Nakadaira T., Sakashita K., Ichikawa A., Kakuno H.
Ключевые слова: accelerator magnets, design parameters, LTS, NbTi, cables, power equipment, status, high field magnets, beam lines
Ogitsu T., Sasaki K., Okamura T., Nakamoto T., Adachi T., Makida Y., Ikedo Y., Nakahara K., Miyake Y., Shimomura K., Strasser P., Kawamura N., Koda A., Yoshida M.
Ключевые слова: design, coils solenoidal, accelerator magnets, cryocoolers, LTS, NbTi, wires, heat losses, quench protection, modeling, high field magnets, muon, beam lines
Ключевые слова: coils solenoidal, accelerator magnets, LTS, NbTi, design parameters, design, high field magnets
Ogitsu T., Sasaki K., Nakamoto T., Adachi T., Yamamoto A., Sato A., Makida Y., Ikedo Y., Miyake Y., Yoshida M., Kuno Y.
Ключевые слова: accelerator magnets, coils solenoidal, quench protection, coils model, LTS, NbTi, design parameters, design, high field magnets, muon, beam lines
Ogitsu T., Sasaki K.-I., Nakayama H., Yamamoto A., Kimura N., Iinuma H., Mibe T., Saito N., Obata T.
Ключевые слова: experimental devices, coils solenoidal, vibration, control systems, measurement technique, magnetic field distribution, new
Ключевые слова: coils solenoidal, conduction cooled systems, experimental devices, design parameters, LTS, NbTi, correction coils, quench protection
Ключевые слова: accelerator magnets, magnets dipole, coated conductors, HTS, REBCO, critical caracteristics, Jc/B curves, design parameters, high field magnets
Amemiya N., Banno N., Takeuchi T., Nimori S., Yoda K., Kasai S.(kasai@rain.dnj.ynu.ac.jp), Yamagishi K., Ogitsu T.(toru.ogitsu@kek.jp), Nakamoto T.
Yonekawa H., Kobayashi E., Ogitsu T., Sasaki K., Ohuchi N., Tsuchiya K., Shintomi T., Amemiya N.(ame@rain.dnj.ynu.ac.jp)
Ключевые слова: LTS, NbTi, quench, stability, experimental results, magnetic properties
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