千兆赫兹低能电子脉冲的条纹调制与压缩

Gigahertz streaking and compression of low-energy electron pulses.

作者信息

Epp Dennis, Schröder Benjamin, Möller Marcel, Ropers Claus

出版信息

Struct Dyn. 2024 Apr 1;11(2):024306. doi: 10.1063/4.0000235. eCollection 2024 Mar.

DOI:10.1063/4.0000235

PMID:38566809

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10987198/

Abstract

Although radio frequency (RF) technology is routinely employed for controlling high-energy pulses of electrons, corresponding technology has not been developed at beam energies below several kiloelectronvolts. In this work, we demonstrate transverse and longitudinal phase-space manipulation of low-energy electron pulses using RF fields. A millimeter-sized photoelectron gun is combined with synchronized streaking and compression cavities driven at frequencies of and , respectively. The phase-controlled acceleration and deceleration of photoelectron pulses is characterized in the energy range of -. Deflection from a transient space-charge cloud at a metal grid is used to measure a fourfold compression of electron pulses, from to pulse duration.

摘要

尽管射频（RF）技术通常用于控制高能电子脉冲，但在低于几千电子伏特的束流能量下，相应的技术尚未得到发展。在这项工作中，我们展示了利用射频场对低能电子脉冲进行横向和纵向相空间操纵。一个毫米尺寸的光电子枪与分别在频率为和驱动的同步条纹和压缩腔相结合。光电子脉冲的相位控制加速和减速在-的能量范围内进行了表征。利用金属栅极处瞬态空间电荷云的偏转来测量电子脉冲从到脉冲持续时间的四倍压缩。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8ab4/10987198/9cab6fdff2f9/SDTYAE-000011-024306_1-g001.jpg

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千兆赫兹低能电子脉冲的条纹调制与压缩

Gigahertz streaking and compression of low-energy electron pulses.

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