Manipulation and diagnosis of femtosecond relativistic electron bunch using terahertz-driven resonators

Manipulation and diagnosis of femtosecond relativistic electron bunch using terahertz-driven resonators

Using strong electromagnetic fields generated by lasers to interact with electrons for precise diagnosis and manipulation of electron beams represents a recent focal point in accelerator technology. This approach surpasses the limitations of conventional RF technology, such as low electric field gra...

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Bibliographic Details
Published in:Nuclear engineering and technology Vol. 56; no. 10; pp. 4237 - 4246
Main Authors: Yang Xu, Yifang Song, Cheng-Ying Tsai, Jian Wang, Zhengzheng Liu, Kuanjun Fan, Jinfeng Yang, Oleg Meshkov
Format: Journal Article
Language:Korean
Published: 2024
Subjects:
Electron beam
Atomic-scale dynamics
Terahertz acceleration
Ultrafast electron diffraction
Streak camera
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Summary:Using strong electromagnetic fields generated by lasers to interact with electrons for precise diagnosis and manipulation of electron beams represents a recent focal point in accelerator technology. This approach surpasses the limitations of conventional RF technology, such as low electric field gradients and timing jitters, effectively enhancing the accuracy of ultrafast electron beam diagnostics and manipulations. As demands for precision continue to rise, the precise diagnosis of crucial parameters of ultrafast electron beams remains challenging. This study delves into the electromagnetic behavior of THz-driven devices and proposes an all-optical method utilizing single-cycle THz radiation to compress and characterize a 3 MeV electron beam. Particle tracking simulations demonstrate an astonishing compression effect, reducing the bunch length from 54.0 fs to 4.3 fs, and achieving sub-femtosecond bunch length measurement resolution. Moreover, when combined with an orthogonal THz streak camera, this method shows even greater potential in multi-bunch scenarios.
Bibliography:KISTI1.1003/JNL.JAKO202431259614880
ISSN:1738-5733
2234-358X