Alignment techniques for DRAGON-Ⅰ LIA

DAI Zhi-Yong; XIE Yu-Tong; LI Hong; ZHANG Wen-Wei; LIU Yun-Long; PAN Hai-Feng; ZHANG Lin-Wen; DENG Jian-Jun

doi:10.1088/1674-1137/33/9/016

Chinese Physics C> 2009, Vol. 33> Issue(9) : 789-791 DOI: 10.1088/1674-1137/33/9/016

Alignment techniques for DRAGON-Ⅰ LIA

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Abstract：
DRAGON-Ⅰdesigned and manufactured by CAEP is a linear induction accelerator which can produce a 20 MeV-3 kA-60 ns electron beam. The high performance required for the machine is determined by the beam quality and thus is greatly dependent on the accelerator alignment. In order to reduce the chromatic effect of the beam, the stretched wire technique has been developed to measure magnetic axes of the cells precisely, and the dipole steering magnets have been equipped into each cell to correct its magnetic axis misalignment. Finally, the laser tracker has been used to examine the installation error of the accelerator. In this paper, different alignment techniques and the primary results are presented and discussed.

References

[1]

. DING Bo-Nan, DENG Jian-Jun, WANG Hua-Cen et al.HEP NP, 2005, 29(6): 604 (in Chinese)2. DAI Zhi-Yong, LIU Cheng-Jun. Design of Solenoid Mag-net with Slender Majority of Transverse Magnetic Field.China Nuclear Science and Technology Report, CNIC-01327. Atomic Energy Press, 1998 (in Chinese)3. Bonnafond C, Villate D. Alignment Techniques for the HighCurrent AIRIX Accelerator. Proceedings of the 1999 Particle Accelerator Conference. New York: IEEE Service Cen-ter, 1999. 1381-13834. Caporaso G J, Barletta W A, Birx D L et al. Beam Dy-namics in the ATA. In: Briggs Richard J, Toepfer Alan J.Proceedings of the 5th International Conference on HighPower Particle Beams. San Francisco: LLNL Press, 1983.427-4325. CHEN Y J. Nuclear Instruments and Methods in PhysicsResearch A, 1990, 292: 455

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DAI Zhi-Yong, XIE Yu-Tong, LI Hong, ZHANG Wen-Wei, LIU Yun-Long, PAN Hai-Feng, ZHANG Lin-Wen and DENG Jian-Jun. Alignment techniques for DRAGON-Ⅰ LIA[J]. Chinese Physics C, 2009, 33(9): 789-791. doi: 10.1088/1674-1137/33/9/016

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Received: 2008-10-28
Revised: 2009-03-05

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通讯作者: 陈斌, bchen63@163.com

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沈阳化工大学材料科学与工程学院沈阳 110142

Alignment techniques for DRAGON-Ⅰ LIA

Corresponding author: DAI Zhi-Yong,

Received Date: 2008-10-28

Accepted Date: 2009-03-05

Available Online: 2009-09-05

Abstract:

DRAGON-Ⅰdesigned and manufactured by CAEP is a linear induction accelerator which can produce a 20 MeV-3 kA-60 ns electron beam. The high performance required for the machine is determined by the beam quality and thus is greatly dependent on the accelerator alignment. In order to reduce the chromatic effect of the beam, the stretched wire technique has been developed to measure magnetic axes of the cells precisely, and the dipole steering magnets have been equipped into each cell to correct its magnetic axis misalignment. Finally, the laser tracker has been used to examine the installation error of the accelerator. In this paper, different alignment techniques and the primary results are presented and discussed.

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Alignment techniques for DRAGON-Ⅰ LIA

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