Experimental and numerical characterization of timing jitter for short electron beams in a linear photo-injector

In modern particle accelerators involving short (few hundreds of fs or less) photon and particle beams, a crucial requirement is the arrival timing jitter and its modeling, taking into account different noise sources. This paper considers the arrival timing jitter of an electron beam measured at the...

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Veröffentlicht in:	Measurement science & technology 2024-02, Vol.35 (2), p.25015
Hauptverfasser:	Giannetti, G, Anania, M P, Bellaveglia, M, Chiadroni, E, Cianchi, A, Del Dotto, A, Galletti, M, Gallo, A, Giribono, A, Piersanti, L, Pompili, R, Romeo, S, Serenellini, B, Tocci, S, Vaccarezza, C, Villa, F, Ferrario, M
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creator	Giannetti, G Anania, M P Bellaveglia, M Chiadroni, E Cianchi, A Del Dotto, A Galletti, M Gallo, A Giribono, A Piersanti, L Pompili, R Romeo, S Serenellini, B Tocci, S Vaccarezza, C Villa, F Ferrario, M
description	In modern particle accelerators involving short (few hundreds of fs or less) photon and particle beams, a crucial requirement is the arrival timing jitter and its modeling, taking into account different noise sources. This paper considers the arrival timing jitter of an electron beam measured at the SPARC_LAB photo-injector test facility (INFN-LNF, Frascati) and studies how the different jitter sources impact on the beam arrival time, considering three velocity bunching machine working points (WPs). This study includes the development of a first order mathematical model that describes the jitter contributions, the PIC code simulations for the machine WP description and experimental data acquired in a dedicated run at SPARC_LAB to benchmark both the proposed model and simulations.
doi_str_mv	10.1088/1361-6501/ad099c
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title	Experimental and numerical characterization of timing jitter for short electron beams in a linear photo-injector
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