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Femtosecond relativistic electron beam with reduced timing jitter from THz-driven beam compression

We propose and demonstrate a novel method to reduce the pulse width and timing jitter of a relativistic electron beam through THz-driven beam compression. In this method the longitudinal phase space of a relativistic electron beam is manipulated by a linearly polarized THz pulse in a dielectric tube such that the bunch tail has a higher velocity than the bunch head, which allows simultaneous reduction of both pulse width and timing jitter after passing through a drift. In this experiment, the beam is compressed by more than a factor of four from 130 fs to 28 fs with the arrival time jitter also reduced from 97 fs to 36 fs, opening up new opportunities in using pulsed electron beams for studies of ultrafast dynamics. This technique extends the well known rf buncher to the THz frequency and may have a strong impact in accelerator and ultrafast science facilities that require femtosecond electron beams with tight synchronization to external lasers.

preprint2019arXivOpen access
Lingrong ZhaoHeng TangChao LuTao JiangPengfei ZhuLong HuWei SongHuida WangJiaqi QiuChunguang JingSergey AntipovDao XiangJie Zhang
physics.acc-ph
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Open access13 authors1 topic
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Lingrong ZhaoHeng TangChao LuTao JiangPengfei ZhuLong HuWei SongHuida WangJiaqi QiuChunguang JingSergey AntipovDao XiangJie Zhang

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