基于矢量的连续波射频压缩腔用于超快电子衍射的反馈
Vector-based feedback of continuous wave radiofrequency compression cavity for ultrafast electron diffraction.
作者信息
Sutter Thomas M, Lee Joshua S H, Kulkarni Atharva V, Musumeci Pietro, Kogar Anshul
机构信息
Department of Physics and Astronomy, University of California Los Angeles, Los Angeles, California 90095, USA.
出版信息
Struct Dyn. 2024 Mar 25;11(2):024303. doi: 10.1063/4.0000231. eCollection 2024 Mar.
The temporal resolution of ultrafast electron diffraction at weakly relativistic beam energies (100 keV) suffers from space-charge induced electron pulse broadening. We describe the implementation of a radio frequency (RF) cavity operating in the continuous wave regime to compress high repetition rate electron bunches from a 40.4 kV DC photoinjector for ultrafast electron diffraction applications. Active stabilization of the RF amplitude and phase through a feedback loop based on the demodulated in-phase and quadrature components of the RF signal is demonstrated. This scheme yields 144 ± 19 fs RMS temporal resolution in pump-probe studies.
在弱相对论电子束能量(100 keV)下,超快电子衍射的时间分辨率受到空间电荷引起的电子脉冲展宽的影响。我们描述了一种工作在连续波模式下的射频(RF)腔的实现,该腔用于压缩来自40.4 kV直流光电注入器的高重复率电子束团,以用于超快电子衍射应用。通过基于射频信号的解调同相和正交分量的反馈回路,实现了射频幅度和相位的主动稳定。在泵浦 - 探测研究中,该方案产生了144±19 fs的均方根时间分辨率。
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