Development of a 3 T cryogenic probe station with a 5.5 T superconducting magnet

被引：1

作者：

Wang, Donghu ^{[1
,2
]}

Zhang, Zhan ^{[3
]}

Li, Zuoguang ^{[1
,2
]}

Gao, Peng ^{[1
]}

Bai, Pengfei ^{[4
]}

Zhu, Rongtian ^{[4
]}

Zhang, Lian ^{[4
]}

Li, Guangdong ^{[5
]}

Wu, Ze ^{[5
]}

Zhou, Chao ^{[1
,3
]}

机构：

[1] Chinese Acad Sci, Inst Plasma Phys, Hefei Inst Phys Sci, Hefei 230031, Peoples R China

[2] Univ Sci & Technol China, Hefei 230026, Peoples R China

[3] Anhui Energy Lab, Hefei Comprehens Natl Sci Ctr, Inst Energy, Hefei 230001, Peoples R China

[4] Hefei Xihe Superconducting Technol Co Ltd, Hefei 230001, Peoples R China

[5] Hunan Gerun Superconducting Technol Co Ltd, Changsha 410000, Peoples R China

来源：

PHYSICA C-SUPERCONDUCTIVITY AND ITS APPLICATIONS | 2025年 / 628卷

关键词：

Cryogenic probe station; Superconducting magnet; Conduction cooling;

D O I：

10.1016/j.physc.2024.1354631

中图分类号：

O59 [应用物理学];

学科分类号：

摘要：

Cryogenic Probe Stations (CPSs) with superconducting magnetics can be used to investigate the magnetic properties of materials and devices at low temperatures, offering researchers valuable information about their behavior under strong magnetic fields. This article presented the design, development, and testing of superconducting CPS with conduction cooling cryostat. A Gifford-McMahon (G-M) cryocooler is used to cool the magnet with a power of 1.2 W. Utilizing a Nb-Ti superconducting magnet, this system is capable of reaching a maximum magnetic field strength of 5.5 T and a magnetic field strength of 3 T on the sample stage. The authors introduced the design of cryostat and the binary current leads. Thermal finite element simulation analysis was conducted on critical structures to verify the feasibility of the design of the cryostat.

引用

页数：8

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