Correlations between X-rays, visible light and drive-beam energy loss observed in plasma wakefield acceleration experiments at FACET-II

Chaojie Zhang; Doug Storey; Pablo San Miguel Claveria; Zan Nie; Ken A. Marsh; Warren B. Mori; Erik Adli; Weiming An; Robert Ariniello; Gevy J. Cao; Christine Clark; Sebastien Corde; Thamine Dalichaouch; Christopher E. Doss; Claudio Emma; Henrik Ekerfelt; Elias Gerstmayr; Spencer Gessner; Claire Hansel; Alexander Knetsch; Valentina Lee; Fei Li; Mike Litos; Brendan O'Shea; Glen White; Gerry Yocky; Viktoriia Zakharova; Mark Hogan; Chan Joshi

doi:10.1017/S0022377824000734

Correlations between X-rays, visible light and drive-beam energy loss observed in plasma wakefield acceleration experiments at FACET-II

Chaojie Zhang
, Doug Storey
, Pablo San Miguel Claveria
, Zan Nie
, Ken A. Marsh
, Warren B. Mori
, Erik Adli
, Weiming An
, Robert Ariniello
, Gevy J. Cao
, Christine Clark
, Sebastien Corde
, Thamine Dalichaouch
, Christopher E. Doss
, Claudio Emma
, Henrik Ekerfelt
, Elias Gerstmayr
, Spencer Gessner
, Claire Hansel
, Alexander Knetsch

Valentina Lee, Fei Li, Mike Litos, Brendan O'Shea, Glen White, Gerry Yocky, Viktoriia Zakharova, Mark Hogan, Chan Joshi

Research output: Contribution to journal › Article › peer-review

Abstract

This study documents several correlations observed during the first run of the plasma wakefield acceleration experiment E300 conducted at FACET-II, using a single drive electron bunch. The established correlations include those between the measured maximum energy loss of the drive electron beam and the integrated betatron X-ray signal, the calculated total beam energy deposited in the plasma and the integrated X-ray signal, among three visible light emission measuring cameras and between the visible plasma light and X-ray signal. The integrated X-ray signal correlates almost linearly with both the maximum energy loss of the drive beam and the energy deposited into the plasma, demonstrating its usability as a measure of energy transfer from the drive beam to the plasma. Visible plasma light is found to be a useful indicator of the presence of a wake at three locations that overall are two metres apart. Despite the complex dynamics and vastly different time scales, the X-ray radiation from the drive bunch and visible light emission from the plasma may prove to be effective non-invasive diagnostics for monitoring the energy transfer from the beam to the plasma in future high-repetition-rate experiments.

Original language	English
Article number	734
Journal	Journal of Plasma Physics
Volume	90
Issue number	4
DOIs	https://doi.org/10.1017/S0022377824000734
Publication status	Published - 18 Sept 2024

Keywords

intense particle beams
plasma diagnostics
plasma waves

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10.1017/S0022377824000734

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Zhang, C., Storey, D., San Miguel Claveria, P., Nie, Z., Marsh, K. A., Mori, W. B., Adli, E., An, W., Ariniello, R., Cao, G. J., Clark, C., Corde, S., Dalichaouch, T., Doss, C. E., Emma, C., Ekerfelt, H., Gerstmayr, E., Gessner, S., Hansel, C., ... Joshi, C. (2024). Correlations between X-rays, visible light and drive-beam energy loss observed in plasma wakefield acceleration experiments at FACET-II. Journal of Plasma Physics, 90(4), Article 734. https://doi.org/10.1017/S0022377824000734

@article{62ef1e7fc15649628caf0a928ca8862c,

title = "Correlations between X-rays, visible light and drive-beam energy loss observed in plasma wakefield acceleration experiments at FACET-II",

abstract = "This study documents several correlations observed during the first run of the plasma wakefield acceleration experiment E300 conducted at FACET-II, using a single drive electron bunch. The established correlations include those between the measured maximum energy loss of the drive electron beam and the integrated betatron X-ray signal, the calculated total beam energy deposited in the plasma and the integrated X-ray signal, among three visible light emission measuring cameras and between the visible plasma light and X-ray signal. The integrated X-ray signal correlates almost linearly with both the maximum energy loss of the drive beam and the energy deposited into the plasma, demonstrating its usability as a measure of energy transfer from the drive beam to the plasma. Visible plasma light is found to be a useful indicator of the presence of a wake at three locations that overall are two metres apart. Despite the complex dynamics and vastly different time scales, the X-ray radiation from the drive bunch and visible light emission from the plasma may prove to be effective non-invasive diagnostics for monitoring the energy transfer from the beam to the plasma in future high-repetition-rate experiments.",

keywords = "intense particle beams, plasma diagnostics, plasma waves",

author = "Chaojie Zhang and Doug Storey and \{San Miguel Claveria\}, Pablo and Zan Nie and Marsh, \{Ken A.\} and Mori, \{Warren B.\} and Erik Adli and Weiming An and Robert Ariniello and Cao, \{Gevy J.\} and Christine Clark and Sebastien Corde and Thamine Dalichaouch and Doss, \{Christopher E.\} and Claudio Emma and Henrik Ekerfelt and Elias Gerstmayr and Spencer Gessner and Claire Hansel and Alexander Knetsch and Valentina Lee and Fei Li and Mike Litos and Brendan O'Shea and Glen White and Gerry Yocky and Viktoriia Zakharova and Mark Hogan and Chan Joshi",

note = "Publisher Copyright: Copyright {\textcopyright} The Author(s), 2024. Published by Cambridge University Press.",

year = "2024",

month = sep,

day = "18",

doi = "10.1017/S0022377824000734",

language = "English",

volume = "90",

journal = "Journal of Plasma Physics",

issn = "0022-3778",

number = "4",

}

Zhang, C, Storey, D, San Miguel Claveria, P, Nie, Z, Marsh, KA, Mori, WB, Adli, E, An, W, Ariniello, R, Cao, GJ, Clark, C, Corde, S, Dalichaouch, T, Doss, CE, Emma, C, Ekerfelt, H, Gerstmayr, E, Gessner, S, Hansel, C, Knetsch, A, Lee, V, Li, F, Litos, M, O'Shea, B, White, G, Yocky, G, Zakharova, V, Hogan, M & Joshi, C 2024, 'Correlations between X-rays, visible light and drive-beam energy loss observed in plasma wakefield acceleration experiments at FACET-II', Journal of Plasma Physics, vol. 90, no. 4, 734. https://doi.org/10.1017/S0022377824000734

TY - JOUR

T1 - Correlations between X-rays, visible light and drive-beam energy loss observed in plasma wakefield acceleration experiments at FACET-II

AU - Zhang, Chaojie

AU - Storey, Doug

AU - San Miguel Claveria, Pablo

AU - Nie, Zan

AU - Marsh, Ken A.

AU - Mori, Warren B.

AU - Adli, Erik

AU - An, Weiming

AU - Ariniello, Robert

AU - Cao, Gevy J.

AU - Clark, Christine

AU - Corde, Sebastien

AU - Dalichaouch, Thamine

AU - Doss, Christopher E.

AU - Emma, Claudio

AU - Ekerfelt, Henrik

AU - Gerstmayr, Elias

AU - Gessner, Spencer

AU - Hansel, Claire

AU - Knetsch, Alexander

AU - Lee, Valentina

AU - Li, Fei

AU - Litos, Mike

AU - O'Shea, Brendan

AU - White, Glen

AU - Yocky, Gerry

AU - Zakharova, Viktoriia

AU - Hogan, Mark

AU - Joshi, Chan

PY - 2024/9/18

Y1 - 2024/9/18

N2 - This study documents several correlations observed during the first run of the plasma wakefield acceleration experiment E300 conducted at FACET-II, using a single drive electron bunch. The established correlations include those between the measured maximum energy loss of the drive electron beam and the integrated betatron X-ray signal, the calculated total beam energy deposited in the plasma and the integrated X-ray signal, among three visible light emission measuring cameras and between the visible plasma light and X-ray signal. The integrated X-ray signal correlates almost linearly with both the maximum energy loss of the drive beam and the energy deposited into the plasma, demonstrating its usability as a measure of energy transfer from the drive beam to the plasma. Visible plasma light is found to be a useful indicator of the presence of a wake at three locations that overall are two metres apart. Despite the complex dynamics and vastly different time scales, the X-ray radiation from the drive bunch and visible light emission from the plasma may prove to be effective non-invasive diagnostics for monitoring the energy transfer from the beam to the plasma in future high-repetition-rate experiments.

AB - This study documents several correlations observed during the first run of the plasma wakefield acceleration experiment E300 conducted at FACET-II, using a single drive electron bunch. The established correlations include those between the measured maximum energy loss of the drive electron beam and the integrated betatron X-ray signal, the calculated total beam energy deposited in the plasma and the integrated X-ray signal, among three visible light emission measuring cameras and between the visible plasma light and X-ray signal. The integrated X-ray signal correlates almost linearly with both the maximum energy loss of the drive beam and the energy deposited into the plasma, demonstrating its usability as a measure of energy transfer from the drive beam to the plasma. Visible plasma light is found to be a useful indicator of the presence of a wake at three locations that overall are two metres apart. Despite the complex dynamics and vastly different time scales, the X-ray radiation from the drive bunch and visible light emission from the plasma may prove to be effective non-invasive diagnostics for monitoring the energy transfer from the beam to the plasma in future high-repetition-rate experiments.

KW - intense particle beams

KW - plasma diagnostics

KW - plasma waves

UR - https://www.scopus.com/pages/publications/85204588980

U2 - 10.1017/S0022377824000734

DO - 10.1017/S0022377824000734

M3 - Article

AN - SCOPUS:85204588980

SN - 0022-3778

VL - 90

JO - Journal of Plasma Physics

JF - Journal of Plasma Physics

IS - 4

M1 - 734

ER -

Correlations between X-rays, visible light and drive-beam energy loss observed in plasma wakefield acceleration experiments at FACET-II

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