Instantaneous electron beam emittance measurement system based on the optical transition radiation principle

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JIANG Xiao-Guo, WANG Yuan, ZHANG Kai-Zhi, YANG Guo-Jun, SHI Jin-Shui, DENG Jian-Jun and LI Jin. Instantaneous electron beam emittance measurement system based on the optical transition radiation principle[J]. Chinese Physics C, 2014, 38(1): 017002. doi: 10.1088/1674-1137/38/1/017002
JIANG Xiao-Guo, WANG Yuan, ZHANG Kai-Zhi, YANG Guo-Jun, SHI Jin-Shui, DENG Jian-Jun and LI Jin. Instantaneous electron beam emittance measurement system based on the optical transition radiation principle[J]. Chinese Physics C, 2014, 38(1): 017002.  doi: 10.1088/1674-1137/38/1/017002 shu
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Received: 2012-11-30
Revised: 1900-01-01
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    沈阳化工大学材料科学与工程学院 沈阳 110142

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Instantaneous electron beam emittance measurement system based on the optical transition radiation principle

    Corresponding author: JIANG Xiao-Guo,

Abstract: One kind of instantaneous electron beam emittance measurement system based on the optical transition radiation principle and double imaging optical method has been set up. It is mainly adopted in the test for the intense electron-beam produced by a linear induction accelerator. The system features two characteristics. The first one concerns the system synchronization signal triggered by the following edge of the main output waveform from a Blumlein switch. The synchronous precision of about 1 ns between the electron beam and the image capture time can be reached in this way so that the electron beam emittance at the desired time point can be obtained. The other advantage of the system is the ability to obtain the beam spot and beam divergence in one measurement so that the calculated result is the true beam emittance at that time, which can explain the electron beam condition. It provides to be a powerful beam diagnostic method for a 2.5 kA, 18.5 MeV, 90 ns (FWHM) electron beam pulse produced by Dragon I. The ability of the instantaneous measurement is about 3 ns and it can measure the beam emittance at any time point during one beam pulse. A series of beam emittances have been obtained for Dragon I. The typical beam spot is 9.0 mm (FWHM) in diameter and the corresponding beam divergence is about 10.5 mrad.

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