Terahertz Acceleration Technology Towards Compact Light Sources
Arya Fallahi

TL;DR
This thesis explores terahertz technology for compact light sources, demonstrating ultrafast electron emitters, high-gradient THz injectors, and proposing THz linacs for efficient particle acceleration.
Contribution
It introduces novel THz-based electron sources, injectors, and linacs, advancing towards a fully THz-driven compact light source facility.
Findings
Ultrafast, high-yield nanostructured electron emitters demonstrated.
Record THz acceleration of >30 keV achieved with STEAM device.
Potential for electron acceleration to tens of MeV with THz pulses shown.
Abstract
The concepts in this thesis comprise three groups focusing on: (1) fast electron sources, (2) THz injectors, and (3) THz linacs. First, the feasibility of ultrafast, high-yield electron emitters based on nanostructured cathodes is demonstrated. Benefitting from field enhancement effects, namely tip-enhancement and plasmonic enhancement, laser-induced field emission is realized over large, dense and highly uniform field emitter arrays. The theoretical principles of these field emitter arrays are studied and their suitability for pico-Coulomb charge production over femtosecond time-scales is confirmed. In the framework of THz injectors, two ground-breaking concepts including ultrafast single-cycle THz guns and segmented THz electron accelerator and manipulator (STEAM) devices are developed and tested. The possibility of using transient fields to realize ultrahigh acceleration gradients…
Peer Reviews
No public reviews on file for this paper yet. If you reviewed it on a platform where reviews are public (OpenReview, ICLR, NeurIPS, ICML), you can paste yours below so the community can read it here.
Videos
No videos yet. Explain this paper in a talk, walkthrough, or lecture? Add one.
