Time-resolved measurement technique for pulsed electron beam envelope basing on framing and streaking principle

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Xiao-Guo Jiang, Yuan Wang, Zhi-Yong Yang, Huang Zhang and Yi Wang. Time-resolved measurement technique for pulsed electron beam envelope basing on framing and streaking principle[J]. Chinese Physics C, 2016, 40(1): 017003. doi: 10.1088/1674-1137/40/1/017003
Xiao-Guo Jiang, Yuan Wang, Zhi-Yong Yang, Huang Zhang and Yi Wang. Time-resolved measurement technique for pulsed electron beam envelope basing on framing and streaking principle[J]. Chinese Physics C, 2016, 40(1): 017003.  doi: 10.1088/1674-1137/40/1/017003 shu
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Received: 2015-02-06
Revised: 2015-07-22
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    Supported by National Natural Science Foundation of China (10675104, 11375162)

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Time-resolved measurement technique for pulsed electron beam envelope basing on framing and streaking principle

    Corresponding author: Xiao-Guo Jiang,
Fund Project:  Supported by National Natural Science Foundation of China (10675104, 11375162)

Abstract: The time-resolved electron beam envelope parameters, including cross sectional distribution and beam centroid position, are very important for the study of beam transmission characteristics in a magnetic field and for verifying the rationality of the magnetic field parameters employed. One kind of high time-resolved beam envelope measurement system has recently been developed, constituted of a high-speed framing camera and a streak camera. It can obtain three panoramic images of the beam and time continuous information along the given beam profile simultaneously. Recently obtained data has proved that several fast vibrations of the beam envelope along the diameter direction occur during the front and the tail parts of the electron beam. The vibration period is several nanoseconds. The effect of magnetic field on the electron beam is also observed and verified. Beam debugging experiments have proved that the existing beam transmission design is reasonable and viable. This beam envelope measurement system will establish a good foundation for beam physics research.

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