The magnetic field measurement system for HEPS-TF superconducting wiggler

Wan Chen; ZhiQiang Li; Zhuo Zhang; XiangChen Yang; FuSan Chen; XianJing Sun; Huihua Lu

doi:10.1007/s41605-021-00306-0

Volume 6 Issue 1

Mar. 2022

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Radiation Detection Technology and Methods > 2022 > 6(1): 129-135 > doi: 10.1007/s41605-021-00306-0

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The magnetic field measurement system for HEPS-TF superconducting wiggler

1. Institute of High Energy Physics, Chinese Academy of Sciences, Beijing, 100049, China;
2. Key Laboratory of Particle Acceleration Physics and Technology, Chinese Academy of Sciences, Beijing, 100049, China

More Information

Received Date: June 27, 2021
Revised Date: November 30, 2021
Accepted Date: December 01, 2021
Available Online: October 17, 2022
Published Date: January 19, 2022

Abstract

Abstract

Background High Energy Photon Source (HEPS) is the fourth-generation synchrotron radiation source to be established in China. HEPS is a high-performance and high-energy synchrotron radiation light source with a beam energy of 6 GeV and an ultra-low emittance of better than 0.06 nm×rad (http://english.ihep.cas.cn/heps/index.html). Superconducting 3W1 wiggler magnet is one of the insertion devices in High Energy Photon Source Test Facility project (HEPS-TF). And it is also the key component to obtain higher brightness in high photon energy range.
Purpose In the development process of superconducting wiggler, in order to ensure the magnetic field quality of each processing, it is necessary to monitor the magnetic field performance of before and after the full length bare magnet installed with cryostat. Therefore, different magnetic field measuring devices are being developed for different develop stages.
Methods The magnetic field performance of the full length bare magnet should be tested in vertical at low temperature. After the magnetic structure is installed in the horizontal cryostat, the horizontal test is carried out. In view of these two processes, the vertical magnetic field measurement system and the horizontal magnetic field measurement system have been developed, respectively.
Results The magnetic performances of the full length bare magnet and assembled with the horizontal cryostat were measured by the vertical and horizontal magnetic field measurement system. The first and second field integrals are corrected to better than the Physical requirements according to the magnetic field measurement results. Detailed magnetic field performances are described in this paper.
Conclusion After more than a year operation of 3W1-SCW on the BII line station, the characteristic energy and photon flux of synchrotron radiation have been greatly improved, and the performance is excellent. It indicates that the measurement results of the magnetic field measurement system are reliable and credible.
- Hall probe,
- Stretch wire,
- Magnetic field measurement,
- Vertical test,
- Superconducting wiggler

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References (5)

References

[1]	http://english.ihep.cas.cn/heps/index.html
[2]	T.C. Fan, F.Y. Lin, M.H. Huang, C.H. Chang, C.S. Hwang, Magnetic field measurement on superconducting multipole wiggler with narrow duct, NSRRC, Taiwan, PAC2003
[3]	M.-F. Xu, X.-Z. Zhang, R. Ye, F.-S. Chen et al., Design, assembly, and pre-commissioning of cryostat for 3W1 superconducting wiggler magnet. Nucl. Sci. Tech. 31 , 113 (2020)
[4]	Z.Q. Li, W. Chen, Superconducting wiggler 3W1 integral field Performance measured by Stretch Wire system. BEPCII annual operation conference (2018) (in Chinese )
[5]	W. Chen, Z.Q. Li, B.G. Yin, The horizontal measurement results of 3W1. BEPCII annual operation conference (2018) (in Chinese )

Wan Chen, ZhiQiang Li, Zhuo Zhang, et al. The magnetic field measurement system for HEPS-TF superconducting wiggler[J]. Radiation Detection Technology and Methods, 2022, 6(1): 129-135. DOI: 10.1007/s41605-021-00306-0

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