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2024年10月30日

Compensation for booster leakage field in the Duke storage ring

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Wei Li, Hao Hao, Stepan F. Mikhailov, Victor Popov, Wei-Min Li and Ying. K. Wu. Compensation for booster leakage field in the Duke storage ring[J]. Chinese Physics C, 2017, 41(1): 017002. doi: 10.1088/1674-1137/41/1/017002
Wei Li, Hao Hao, Stepan F. Mikhailov, Victor Popov, Wei-Min Li and Ying. K. Wu. Compensation for booster leakage field in the Duke storage ring[J]. Chinese Physics C, 2017, 41(1): 017002.  doi: 10.1088/1674-1137/41/1/017002 shu
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Received: 2016-05-23
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    Supported by National Natural Science Foundation of China (11175180, 11475167) and US DOE (DE-FG02-97ER41033)

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Compensation for booster leakage field in the Duke storage ring

    Corresponding author: Wei Li,
    Corresponding author: Hao Hao,
  • 1. National Synchrotron Radiation Laboratory, University of Science and Technology of China, Hefei 230029, China
  • 2. Triangle University Nuclear Laboratory/Physics Department, Duke University, Durham, 27705, USA
  • 3.  Triangle University Nuclear Laboratory/Physics Department, Duke University, Durham, 27705, USA
  • 4.  National Synchrotron Radiation Laboratory, University of Science and Technology of China, Hefei 230029, China
Fund Project:  Supported by National Natural Science Foundation of China (11175180, 11475167) and US DOE (DE-FG02-97ER41033)

Abstract: The High Intensity Gamma-ray Source (HIGS) at Duke University is an accelerator-driven Compton gamma-ray source, providing high flux gamma-ray beam from 1 MeV to 100 MeV for photo-nuclear physics research. The HIGS facility operates three accelerators, a linac pre-injector (0.16 GeV), a booster injector (0.16-1.2 GeV), and an electron storage ring (0.24-1.2 GeV). Because of the proximity of the booster injector to the storage ring, the magnetic field of the booster dipoles close to the ring can significantly alter the closed orbit in the storage ring being operated in the low energy region. This type of orbit distortion can be a problem for certain precision experiments which demand a high degree of energy consistency of the gamma-ray beam. This energy consistency can be achieved by maintaining consistent aiming of the gamma-ray beam, and therefore a steady electron beam orbit and angle at the Compton collision point. To overcome the booster leakage field problem, we have developed an orbit compensation scheme. This scheme is developed using two fast orbit correctors and implemented as a feedforward which is operated transparently together with the slow orbit feedback system. In this paper, we will describe the development of this leakage field compensation scheme, and report the measurement results, which demonstrate the effectiveness of the scheme.

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