Long-duration ion motion effects in beam-driven plasma-wakefield accelerators

Beinortaite, Judita; Jones, Harry; Pena Asmus, Felipe Lars; D'Arcy, Richard; Foster, Brian; Osterhoff, Jens; Kanekar, Advait; Schröder, Sarah; Gonzalez Caminal, Pau; Krivkova, Anna; Loisch, Gregor; Wing, Matthew; Maier, Andreas; Björklund Svensson, Jonas Halfdan; Wesch, Stephan; Boyle, Gregory James; Boulton, Lewis Anthony; Wood, Jonathan Christopher

Poster

PUBDB-2025-05729

Long-duration ion motion effects in beam-driven plasma-wakefield accelerators

Beinortaite, J.Extern*DESY* ; Björklund Svensson, J. H.Extern*DESY* ; Boulton, L. A.Extern*DESY* ; Boyle, G. J.Extern* ; Foster, B.Extern*DESY* ; Gonzalez Caminal, P.Extern*DESY* ; Jones, H.Extern* ; Kanekar, A.Extern*DESY* ; Krivkova, A.DESY* ; Loisch, G.Extern*DESY* ; Maier, A.Extern*DESY* ; Osterhoff, J.Extern*DESY* ; Pena Asmus, F. L.Extern* ; Schröder, S.DESY* ; Wesch, S.DESY* ; Wing, M.Extern* ; Wood, J. C.DESY* ; D'Arcy, R.Extern*

2025

7th European Advanced Accelerator Conference, EAAC, Elba, DESY, Italy, 21 Sep 2025 - 27 Sep 2025

Abstract: High-repetition-rate operation of plasma-wakefield accelerators is essential for their suitability in the design of colliders and FELs. Energy remaining in the plasma after the wakefield acceleration event can limit the ultimate repetition rate of the plasma accelerator as the plasma takes time to relax to its initial state. This relaxation is limited by two ion-driven effects: their redistribution after the wakefield event and potential further collisional ionisation caused by this motion, as was observed at FACET [Nat. Commun 11, 1–11]. A tens-of-nanoseconds recovery of the original on-axis plasma density directly from ion motion was measured for standard FLASHForward operational settings [Nature 603, 58–62], prompting further investigations into possible ionisation effects. In this work, we investigated hydrogen and argon plasmas at a variety of working points with two different diagnostics: the pump-probe electron-beam-based technique and optical emission spectrometry. In some regimes, both diagnostics indicated additional ionisation happening on the nanoseconds-microseconds timescale, which elongated the recovery time. The dependency of the exact evolution rate of ion-motion-driven ionisation on the initial plasma conditions, namely plasma density and the degree of ionisation, was explored, which will inform the design of the highest repetition rate plasma sources for future colliders and FELs.

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FLASHForward

Appears in the scientific report 2025

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Private Collections > >DESY > >FH > >FTX > HH_FH_FTX_AS
Private Collections > >DESY > >M > MPL
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Record created 2025-12-18, last modified 2025-12-19

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