Alignment of beam position monitors in cryomodule of CADS injector II

Significant temperature difference (300-77 K or even 4 K) can cause large deformations and displacements of the beam position monitors (BPMs), which affect BPMs measurement resolution or even cause their malfunction in cryogenic situations. In this paper, to check the offset from the mechanical to e...

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Published in	Nuclear science and techniques Vol. 28; no. 6; pp. 95 - 100
Main Authors	Yuan, Jian-Dong, He, Yuan, Zhang, Bin, Zhang, Jun-Hui, Wu, Jun-Xia, Zhang, Yong, Wang, Feng-Feng, Yao, Jun-Jie, Sun, Guo-Zhen, Wan, Yu-Qin
Format	Journal Article
Language	English
Published	Singapore Springer Singapore 01.06.2017
Subjects	Beam Energy Fourier’s Hadrons Heavy Ions Law;Cryomodule;CADS;ANSYS monitors;Alignment Nuclear Energy Nuclear Physics position Fourier’s Law ANSYS Beam position monitors Alignment CADS Cryomodule
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ISSN	1001-8042 2210-3147
DOI	10.1007/s41365-017-0232-9

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Abstract	Significant temperature difference (300-77 K or even 4 K) can cause large deformations and displacements of the beam position monitors (BPMs), which affect BPMs measurement resolution or even cause their malfunction in cryogenic situations. In this paper, to check the offset from the mechanical to electrical center in low temperature (77 K), Fourier’s law and finite element method are used to simulate cryo-deformation. Laser tracker and micro-alignment telescope are employed in combined BPM calibration, installation and monitoring. The calibration error is\0.02 mm, and the installation and monitoring precision are 0.06 mm and 0.01 mm, respectively. The monitored cryo-deformation agrees well with the simulation results. These indicate that the combined alignment can improve performance of the BPM system. All these guaranteed the success of running the 9.55 MeV@2.14 mA cw protons.
AbstractList	Significant temperature difference (300–77 K or even 4 K) can cause large deformations and displacements of the beam position monitors (BPMs), which affect BPMs measurement resolution or even cause their malfunction in cryogenic situations. In this paper, to check the offset from the mechanical to electrical center in low temperature (77 K), Fourier’s law and finite element method are used to simulate cryo-deformation. Laser tracker and micro-alignment telescope are employed in combined BPM calibration, installation and monitoring. The calibration error is <0.02 mm, and the installation and monitoring precision are 0.06 mm and 0.01 mm, respectively. The monitored cryo-deformation agrees well with the simulation results. These indicate that the combined alignment can improve performance of the BPM system. All these guaranteed the success of running the 9.55 MeV@2.14 mA cw protons. Significant temperature difference (300-77 K or even 4 K) can cause large deformations and displacements of the beam position monitors (BPMs), which affect BPMs measurement resolution or even cause their malfunction in cryogenic situations. In this paper, to check the offset from the mechanical to electrical center in low temperature (77 K), Fourier’s law and finite element method are used to simulate cryo-deformation. Laser tracker and micro-alignment telescope are employed in combined BPM calibration, installation and monitoring. The calibration error is\0.02 mm, and the installation and monitoring precision are 0.06 mm and 0.01 mm, respectively. The monitored cryo-deformation agrees well with the simulation results. These indicate that the combined alignment can improve performance of the BPM system. All these guaranteed the success of running the 9.55 MeV@2.14 mA cw protons.
ArticleNumber	75
Author	Jian-Dong Yuan;Yuan He;Bin Zhang;Jun-Hui Zhang;Jun-Xia Wu;Yong Zhang;Feng-Feng Wang;Jun-Jie Yao;Guo-Zhen Sun;Yu-Qin Wan
AuthorAffiliation	Institute of Modern Physics, Chinese Academy of Sciences, Lanzhou 730000, China
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Snippet	Significant temperature difference (300-77 K or even 4 K) can cause large deformations and displacements of the beam position monitors (BPMs), which affect... Significant temperature difference (300–77 K or even 4 K) can cause large deformations and displacements of the beam position monitors (BPMs), which affect...
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SubjectTerms	Beam Energy Fourier’s Hadrons Heavy Ions Law;Cryomodule;CADS;ANSYS monitors;Alignment Nuclear Energy Nuclear Physics position
Title	Alignment of beam position monitors in cryomodule of CADS injector II
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