Barzi E., Zlobin A.V., Turrioni D., Ivanyushenkov Y., Kesgin I., Fuerst J., Kasa M., Gluskin E., MacDonald S.
Ключевые слова: LTS, Nb3Sn, magnets, undulator, design parameters, quench energy, stability, dissipative properties, losses, hot spots, fabrication, test results
Barzi E., Zlobin A.V., Turrioni D., Ivanyushenkov Y., Kesgin I., Shiroyanagi Y., Hasse Q., Kasa M., Gluskin E., MacDonald S.
Ключевые слова: undulator, magnets, LTS, Nb3Sn, design, design parameters, fabrication, stability, hot spots, quench, training effect, test results
Barzi E., Zlobin A.V., Turrioni D., Ivanyushenkov Y., Arbelaez D., Kesgin I., Prestemon S., Hasse Q., Kasa M., Gluskin E., MacDonald S.
Ключевые слова: undulator, LTS, Nb3Sn, fabrication, test results, stability, quench, training effect, hot spots
Barzi E., Zlobin A.V., Turrioni D., Ivanyushenkov Y., Kesgin I., Shiroyanagi Y., Hasse Q., Kasa M., Gluskin E., MacDonald S.
Ключевые слова: LTS, Nb3Sn, RRR parameter, magnets, undulator, prototype, fabrication, design, stability, design parameters, training effect, hot spots, quench current, dissipative properties, test results
Sun Y.P., Ivanyushenkov Y., Kesgin I., Shiroyanagi Y., Fuerst J., Hasse Q., Kasa M., Borland M., Emery L., Sajaev V., Gluskin E., Harkay K.C., Jansma W.
Ключевые слова: undulator, helical winding, design, operational performance, design parameters, cryostat, heat loads, cooling technology, quench current
Barzi E., Zlobin A.V., Turrioni D., Ivanyushenkov Y., Kesgin I., Shiroyanagi Y., Fuerst J., Hasse Q., Kasa M., Gluskin E.
Ключевые слова: undulator, LTS, Nb3Sn, magnets, design parameters, prototype, fabrication, helium liquid, test results, heat treatment, quench current, quench properties
Barzi E., Zlobin A.V., Turrioni D., Ivanyushenkov Y., Kesgin I., Shiroyanagi Y., Hasse Q., Kasa M., Gluskin E., MacDonald S.
Ключевые слова: undulator, LTS, Nb3Sn, stability, quench, design, design parameters, training effect, hot spots, dissipative properties
Ключевые слова: magnets permanent, cryogenic systems, undulator, comparison, LTS, NbTi, Nb3Sn, magnetic field density, design, cooling technology, vacuum structure, plans
Ivanyushenkov Y., Smith M., Sun X., Shiroyanagi Y., Doose C., Fuerst J., Hasse Q., Kasa M., Skiadopoulos D., Harkay K., Borland M., Dejus R., Dooling J., Emery L., Gagliano J., Sajaev V., Schroeder K., Sereno N., Trakhtenberg E., Xiao A., Zholents A., Gluskin E., Kenesei P., Shastri S.
Kim S.H., Xu J., Ivanyushenkov Y., Liu J., Smith M., Sun X., Shiroyanagi Y., Makarov A., Abliz M., Capatina D., Doose C., Fuerst J., Hasse Q., Jaski M., Kasa M., Skiadopoulos D., Lev V., Syrovatin V., Tsukanov V., Harkay K., Boon L., Borland M., Collins J., Decker G., Dejus R., Dooling J., Emery L., Gagliano J., Kustom R., Lang J.C., Moog E., Robinson D., Sajaev V., Schroeder K., Sereno N., Trakhtenberg E., Vasserman I., Vella A., Xiao A., Zholents A., Gluskin E., Mezentsev N., Pfotenhauer J., Potratz D.
Ключевые слова: undulator, LTS, NbTi, cryostat, cryogenic systems, cooling technology, heat loads, fabrication, test results, quench, vacuum structure
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