クライストロン用MgB2超伝導磁石の開発とその応用

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Published in低温工学 Vol. 60; no. 4; pp. 148 - 155
Main Authors 渡邊 洋之, 安藤 竜弥, 田中 秀樹, 山本 明
Format Journal Article
LanguageJapanese
Published 公益社団法人 低温工学・超電導学会 (旧 社団法人 低温工学協会) 20.07.2025
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ISSN0389-2441
1880-0408
DOI10.2221/jcsj.60.148

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Author 山本 明
渡邊 洋之
安藤 竜弥
田中 秀樹
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  fullname: 田中 秀樹
  organization: 株式会社 日立製作所 研究開発グループ
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  fullname: 山本 明
  organization: 高エネルギー加速器研究機構(KEK)
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References 5) H. Tanaka, et al.: “Performance of MgB2 superconductor developed for high-efficiency klystron applications”, IEEE, Trans. Appl. Supercond. 30 (2020), Art no. 6200105
6) K. Funaki, et al.: “Quantitative analysis of normal zone propagation in MgB2 superconducting wires”, TEION KOGAKU, vol. 43, no. 10 (2008), 423-429
1) A. Yamamoto, et al.: “Applying superconducting magnet technology for energy saving in klystron beam focusing in particle accelerator RF power systems,” IEEE Trans. Appl. Supercond. 30, (2020), Art no. 4101304
4) Y. Ogiwara, : “Outline of cryogenics,” Tokyo Denki University Press, p.277 (1999
8) H. Tanaka, et al.: “Development of in-situ processed MgB2 superconducting wires,” TEION KOGAKU, vol. 56, no. 6 (2021), 327-334
10) H. Tanaka, et al.: “Measurement of irreversible external-compressive strain at RT and enhancing strain tolerance at RT on MgB2 multifilament wire,” IEEE Trans. Appl. Supercond., vol. 32, no. 6 (2022), Art no. 6200205
13) T. Koga, et al.: “Manufacture of 2T small MgB2 superconducting coil,” Abstracts of CSSJ Conference 106 (2023), p. 67
11) Y. Ebara, et al.: “Demonstration of MgB2 react-and-wind coil,” IEEE Trans. Appl. Supercond., vol. 35, no. 5 (2025), Art no.4601305
2) A. Yamamoto, et al.: “Superconducting klystron-focusing solenoid for high efficiency,” presented in LCWS-2018, Arlington, Oct. (2018
9) H. Tanaka, et al.: “Examination of factors affecting strain tolerance of multifilament MgB2 wires with Fe barrier,” Supercond. Sci. Technol. 38 (2025) Art no. 015019
12) T. Koga, et al.: “Design and manufacture of a test cryostat with MgB2 superconducting magnet significantly reducing helium consumption,” IEEE Trans. Appl. Supercond., vol. 33, no. 5 (2023), Art no. 4600705
7) Nuria Catalan-Lasheras et al.: “First operation of a klystron fitted with a superconducting MgB2 solenoid,” Proceedings of Int’l Particle Accelerator Conference IPAC2022, Bangkok, JACoW-IPAC2022-FROXSP3 (2022
3) H. Watanabe et al.: “Development of prototype MgB2 superconducting solenoid magnet for high-efficiency klystron applications,” in IEEE Trans.on Appl. Supercond. 30, no. 4, pp. 1-6, June 2020, Art no. 4601206
References_xml – reference: 2) A. Yamamoto, et al.: “Superconducting klystron-focusing solenoid for high efficiency,” presented in LCWS-2018, Arlington, Oct. (2018)
– reference: 4) Y. Ogiwara, : “Outline of cryogenics,” Tokyo Denki University Press, p.277 (1999)
– reference: 8) H. Tanaka, et al.: “Development of in-situ processed MgB2 superconducting wires,” TEION KOGAKU, vol. 56, no. 6 (2021), 327-334
– reference: 1) A. Yamamoto, et al.: “Applying superconducting magnet technology for energy saving in klystron beam focusing in particle accelerator RF power systems,” IEEE Trans. Appl. Supercond. 30, (2020), Art no. 4101304
– reference: 12) T. Koga, et al.: “Design and manufacture of a test cryostat with MgB2 superconducting magnet significantly reducing helium consumption,” IEEE Trans. Appl. Supercond., vol. 33, no. 5 (2023), Art no. 4600705
– reference: 3) H. Watanabe et al.: “Development of prototype MgB2 superconducting solenoid magnet for high-efficiency klystron applications,” in IEEE Trans.on Appl. Supercond. 30, no. 4, pp. 1-6, June 2020, Art no. 4601206
– reference: 10) H. Tanaka, et al.: “Measurement of irreversible external-compressive strain at RT and enhancing strain tolerance at RT on MgB2 multifilament wire,” IEEE Trans. Appl. Supercond., vol. 32, no. 6 (2022), Art no. 6200205
– reference: 9) H. Tanaka, et al.: “Examination of factors affecting strain tolerance of multifilament MgB2 wires with Fe barrier,” Supercond. Sci. Technol. 38 (2025) Art no. 015019
– reference: 13) T. Koga, et al.: “Manufacture of 2T small MgB2 superconducting coil,” Abstracts of CSSJ Conference 106 (2023), p. 67
– reference: 6) K. Funaki, et al.: “Quantitative analysis of normal zone propagation in MgB2 superconducting wires”, TEION KOGAKU, vol. 43, no. 10 (2008), 423-429
– reference: 7) Nuria Catalan-Lasheras et al.: “First operation of a klystron fitted with a superconducting MgB2 solenoid,” Proceedings of Int’l Particle Accelerator Conference IPAC2022, Bangkok, JACoW-IPAC2022-FROXSP3 (2022)
– reference: 11) Y. Ebara, et al.: “Demonstration of MgB2 react-and-wind coil,” IEEE Trans. Appl. Supercond., vol. 35, no. 5 (2025), Art no.4601305
– reference: 5) H. Tanaka, et al.: “Performance of MgB2 superconductor developed for high-efficiency klystron applications”, IEEE, Trans. Appl. Supercond. 30 (2020), Art no. 6200105
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StartPage 148
SubjectTerms conduction-cooled magnet
MgB2 superconducting magnet
MgB2 superconducting wire
quench protection
Title クライストロン用MgB2超伝導磁石の開発とその応用
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