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Progress of 33 T Cryogen-Free Superconducting Magnet Project at HFLSM

Satoshi Awaji, Arnaud Badel, Alexandre Zampa, Kohki Takahashi, Tatsunori Okada, Yuji Tsuchiya, Tatsuro Uto, Taizo Tosaka, Hiroyuki Takewa, Hayato Nezuka, S. Hanai, M. Sugimoto, Ryo Taniguchi, Hiroyuki Fukushima, Kiyoshige Hirose, S. Muto, S. Fujita, Masanori Daibo

2025IEEE Transactions on Applied Superconductivity15 citationsDOIOpen Access PDF

Abstract

A 33T cryogen-free superconducting magnet (33TCSM) project is now in progress at HFLSM, IMR, Tohoku University. The 33T-CSM consists of a f 68mm- 19 T REBCO (HTS) insert and a f 320mm-14 T CuNb/Nb3Sn and NbTi Rutherford (LTS) magnets. The 33T-CSM system has been installed and tested without the HTS insert in March 2024. The LTS outsert magnet consists of three CuNb/Nb3Sn Rutherford cable coils and two NbTi Rutherford cable coils with an epoxy impregnation. It can generate 14 T in a 320 mm bore with 879 A. This winding makes use of advanced high strength CuNb/ Nb3Sn strands specifically developed for the 33T-CSM project, enabling high stress design with about 275 MPa in the Nb3Sn coil at 14 T. The 19 T-HTS insert is designed based on the robust REBCO coil technology we proposed in previous works. For the cooling system, a 9W GM/JT cryocooler is used for the LTS coils, four 4K-GM cryocoolers cool the REBCO coils (1.5 W each at 4.2 K) and two single-stage cryocoolers are used for the radiation shield and current leads. Helium circulation with compressors ensure the thermal connection between the coils and the cryocoolers. The initial cooling is about 7.3 days from room temperature. The test of the 14 T LTS magnet was successfully completed up to 839 A with the nominal maximum electromagnetic stress of 275 MPa after one training quench.

Topics & Concepts

Superconducting magnetMagnetMaterials scienceSuperconductivityCryogenicsNuclear engineeringElectrical engineeringCondensed matter physicsPhysicsEngineeringQuantum mechanicsSuperconducting Materials and ApplicationsSpacecraft and Cryogenic TechnologiesParticle accelerators and beam dynamics