| Literature DB >> 31050450 |
Lingrong Zhao1,2, Zhe Wang1,2, Heng Tang1,2, Rui Wang1,2, Yun Cheng1,2, Chao Lu1,2, Tao Jiang1,2, Pengfei Zhu1,2, Long Hu3, Wei Song3, Huida Wang3, Jiaqi Qiu4, Roman Kostin5, Chunguang Jing5, Sergey Antipov5, Peng Wang6, Jia Qi6, Ya Cheng6,7, Dao Xiang1,2,8, Jie Zhang1,2.
Abstract
We propose and demonstrate a terahertz (THz) oscilloscope for recording time information of an ultrashort electron beam. By injecting a laser-driven THz pulse with circular polarization into a dielectric tube, the electron beam is swept helically such that the time information is uniformly encoded into the angular distribution that allows one to characterize both the temporal profile and timing jitter of an electron beam. The dynamic range of the measurement in such a configuration is significantly increased compared to deflection with a linearly polarized THz pulse. With this THz oscilloscope, nearly 50-fold longitudinal compression of a relativistic electron beam to about 15 fs (rms) is directly visualized with its arrival time determined with 3 fs accuracy. This technique bridges the gap between streaking of photoelectrons with optical lasers and deflection of relativistic electron beams with radio-frequency deflectors, and should have wide applications in many ultrashort electron-beam-based facilities.Entities:
Year: 2019 PMID: 31050450 DOI: 10.1103/PhysRevLett.122.144801
Source DB: PubMed Journal: Phys Rev Lett ISSN: 0031-9007 Impact factor: 9.161