Report number
| CERN-ACC-2020-0022 ; CLIC-Note-1161 |
Title
| Development of Prototype MgB2 Superconducting Solenoid Magnet for High-efficiency Klystron Applications |
Author(s)
| Watanabe, H (Hitachi, Hitachi) ; Koga, T (Hitachi, Hitachi) ; Tanaka, H (Hitachi, Hitachi) ; Wakuda, T (Hitachi, Hitachi) ; Yamamoto, Akira (KEK, Tsukuba ; CERN) ; Michizono, S (KEK, Tsukuba) ; Syratchev, Igor (CERN) ; Mcmonagle, Gerard (CERN) ; Catalan Lasheras, Nuria (CERN) ; Calatroni, Sergio (CERN) |
Publication
| 2020 |
Imprint
| 17 Sep 2020 |
Number of pages
| 7 |
In:
| IEEE Trans.Appl.Supercond. 30 (2020) 4601206 |
DOI
| 10.1109/TASC.2020.2972231
|
Subject category
| Accelerators and Storage Rings |
Study
| CLIC |
Free keywords
| MgB2, conduction cooling, klystron, quench propagation velocity, passive protection |
Abstract
| A wind-and-react MgB 2 solenoid magnet for klystrons has been developed. While the current normal-conducting (Cu) magnet consumes 20 kW per magnet, this MgB2 magnet consumes less than 3 kW in refrigerator power. The conduction-cooled half coil of the magnet is 337 mm in inner diameter; the winding pack, 19.4 mm wide × 136.6 mm high, uses 2.7 km of 10 filament circular conductor, which is insulated with glass 0.83 mm in diameter, and is reacted after being wound onto a stainless steel bobbin. The coil has Cu plates of 0.2 mm in thickness between each coil layer and on the inner and outer sides. The magnet has two coils and produces 0.8 T in the center and its stored energy is 11.8 kJ. Together with the above-mentioned coil structure, these coils can consume stored energy in itself at quench without a special quench protection system. A performance test of the magnet was successful. |
Copyright/License
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