Compensating slice emittance growth in high brightness photoinjectors using sacrificial charge

Li, W. H.; Bartnik, A. C.; Fukasawa, A.; Kaemingk, M.; Lawler, G.; Majernik, N.; Rosenzweig, J. B.; Maxson, J. M.

doi:10.1103/PhysRevAccelBeams.27.084401

Title: Compensating slice emittance growth in high brightness photoinjectors using sacrificial charge

Journal Article · 05 August 2024 · Physical Review Accelerators and Beams

DOI: https://doi.org/10.1103/PhysRevAccelBeams.27.084401 · OSTI ID:2426673

; Bartnik, A. C.;

;

; Lawler, G.;

;

; Maxson, J. M.

Achieving maximum electron beam brightness in photoinjectors requires detailed control of the 3D bunch shape and precise tuning of the beam focusing. Even in state-of-the-art designs, slice emittance growth due to nonlinear space charge forces and partial nonlaminarity often remains non-negligible. In this work, we introduce a new means to linearize the transverse slice phase space: a sacrificial portion of the bunch’s own charge distribution, formed into a wavebroken shock front by highly nonlinear space charge forces within the gun, whose downstream purpose is to dynamically linearize the desired bunch core. We show that linearization of an appropriately prepared bunch can be achieved via strongly nonlaminar focusing of the sacrificial shock front, while the inner core focuses laminarly. This leads to a natural spatial separation of the two distributions: a dense core surrounded by a diffuse halo of sacrificial charge that can be collimated. Multiobjective genetic algorithm optimizations of the ultracompact x-ray free electron laser injector employ this concept, and we interpret it with an analytic model that agrees well with the simulations. In simulation, we demonstrate a final bunch charge of 100 pC, peak current $\sim 30$ A, and a sacrificial charge of 150 pC (250 pC total emitted from cathode) with normalized emittance growth of $< 20 nm rad$ due to space charge. This implies a maximum achievable brightness approximately an order of magnitude greater than existing free electron laser injector designs. Published by the American Physical Society 2024

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Sponsoring Organization:: USDOE

Grant/Contract Number:: SC0020144

OSTI ID:: 2426673

Journal Information:: Physical Review Accelerators and Beams, Journal Name: Physical Review Accelerators and Beams Journal Issue: 8 Vol. 27; ISSN 2469-9888; ISSN PRABCJ

Publisher:: American Physical SocietyCopyright Statement

Country of Publication:: United States

Language:: English

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