Accurate modelling of intrabeam scattering and its impact on photoinjectors for free-electron lasers
Thomas G. Lucas, Paolo Craievich, Eduard Prat, Sven Reiche, Erion Gjonaj

TL;DR
This paper shows how intrabeam scattering affects electron beam quality in photoinjectors used for free-electron lasers, requiring updated modeling for accurate performance predictions.
Contribution
A new Monte Carlo and analytical model is introduced to accurately predict intrabeam scattering effects in photoinjectors.
Findings
Intrabeam scattering causes significant slice energy spread growth in photoinjectors.
Standard simulations underestimate slice energy spread in SwissFEL measurements.
6D brightness degrades with propagation, emphasizing the need to include IBS in design.
Abstract
Intrabeam scattering (IBS) is a fundamental effect that can limit the performance of high-brightness electron machines but has so far been neglected in standard modeling of RF photoinjectors. Recent measurements at SwissFEL show that the slice energy spread (SES) in the injector is significantly underestimated in standard beam dynamic simulations. In this paper, we employ a dedicated Monte Carlo simulation model that accurately predicts IBS-induced SES growth in the photoinjector of an X-ray free-electron laser. The simulations are benchmarked against SES measurements at the SwissFEL and are supported by a new analytical model. The results show that IBS-induced SES growth occurs throughout the injector, most prominently in the electron source, and must be included in performance assessments. We further demonstrate that while 5D brightness is largely conserved, the 6D brightness degrades…
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Taxonomy
TopicsParticle Accelerators and Free-Electron Lasers · Photocathodes and Microchannel Plates · Crystallography and Radiation Phenomena
