Inverse Cerenkov acceleration and inverse free-electron laser experimental results for staged electron laser acceleration

Lora P. Campbell; Christian E. Dilley; Stephen C. Gottschalk; Wayne D. Kimura; David C. Quimby; Loren C. Steinhauer; Marcus Babzien; Ilan Ben-Zvi; Juan C. Gallardo; Karl P. Kusche; Igor V. Pogorelsky; John R. Skaritka; Arie van Steenbergen; Vitlay E. Yakimenko; David B. Cline; al et al

doi:10.1109/27.893294

Inverse Cerenkov acceleration and inverse free-electron laser experimental results for staged electron laser acceleration

Lora P. Campbell
, Christian E. Dilley
, Stephen C. Gottschalk
, Wayne D. Kimura
, David C. Quimby
, Loren C. Steinhauer
, Marcus Babzien
, Ilan Ben-Zvi
, Juan C. Gallardo
, Karl P. Kusche
, Igor V. Pogorelsky
, John R. Skaritka
, Arie van Steenbergen
, Vitlay E. Yakimenko
, David B. Cline
, al et al

Physics and Astronomy

STI Optronics Inc.

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

6 Scopus citations

Abstract

The goal of the staged electron laser acceleration (STELLA) experiment is to demonstrate staging of the laser acceleration process whereby an inverse free electron laser (IFEL) will be used to prebunch the electrons, which are then accelerated in an inverse Cerenkov accelerator (ICA). As preparation for this experiment, a new permanent magnet wiggler for the IFEL was constructed and the ICA system was modified. Both systems have been tested on a new beamline specifically built for STELLA. The improved electron beam (e-beam) with its very low emittance (0.8 mm-mrad normalized) enabled focusing the e-beam to an average radius (1σ) of 65 μm within the ICA interaction region. This small e-beam focus greatly enhanced the ICA process and resulted in electron energy spectra that have demonstrated the best agreement to date in both overall shape and magnitude with the model predictions. The electron energy spectrum using the new wiggler in the IFEL was also measured. These results will be described as well as future improvements to the STELLA experiment.

Original language	English
Pages (from-to)	1143-1151
Number of pages	9
Journal	IEEE Transactions on Plasma Science
Volume	28
Issue number	4
DOIs	https://doi.org/10.1109/27.893294
State	Published - Aug 2000

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Campbell, L. P., Dilley, C. E., Gottschalk, S. C., Kimura, W. D., Quimby, D. C., Steinhauer, L. C., Babzien, M., Ben-Zvi, I., Gallardo, J. C., Kusche, K. P., Pogorelsky, I. V., Skaritka, J. R., van Steenbergen, A., Yakimenko, V. E., Cline, D. B., & et al, A. (2000). Inverse Cerenkov acceleration and inverse free-electron laser experimental results for staged electron laser acceleration. IEEE Transactions on Plasma Science, 28(4), 1143-1151. https://doi.org/10.1109/27.893294

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title = "Inverse Cerenkov acceleration and inverse free-electron laser experimental results for staged electron laser acceleration",

abstract = "The goal of the staged electron laser acceleration (STELLA) experiment is to demonstrate staging of the laser acceleration process whereby an inverse free electron laser (IFEL) will be used to prebunch the electrons, which are then accelerated in an inverse Cerenkov accelerator (ICA). As preparation for this experiment, a new permanent magnet wiggler for the IFEL was constructed and the ICA system was modified. Both systems have been tested on a new beamline specifically built for STELLA. The improved electron beam (e-beam) with its very low emittance (0.8 mm-mrad normalized) enabled focusing the e-beam to an average radius (1σ) of 65 μm within the ICA interaction region. This small e-beam focus greatly enhanced the ICA process and resulted in electron energy spectra that have demonstrated the best agreement to date in both overall shape and magnitude with the model predictions. The electron energy spectrum using the new wiggler in the IFEL was also measured. These results will be described as well as future improvements to the STELLA experiment.",

author = "Campbell, \{Lora P.\} and Dilley, \{Christian E.\} and Gottschalk, \{Stephen C.\} and Kimura, \{Wayne D.\} and Quimby, \{David C.\} and Steinhauer, \{Loren C.\} and Marcus Babzien and Ilan Ben-Zvi and Gallardo, \{Juan C.\} and Kusche, \{Karl P.\} and Pogorelsky, \{Igor V.\} and Skaritka, \{John R.\} and \{van Steenbergen\}, Arie and Yakimenko, \{Vitlay E.\} and Cline, \{David B.\} and \{et al\}, al",

year = "2000",

month = aug,

doi = "10.1109/27.893294",

language = "English",

volume = "28",

pages = "1143--1151",

journal = "IEEE Transactions on Plasma Science",

issn = "0093-3813",

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Campbell, LP, Dilley, CE, Gottschalk, SC, Kimura, WD, Quimby, DC, Steinhauer, LC, Babzien, M, Ben-Zvi, I, Gallardo, JC, Kusche, KP, Pogorelsky, IV, Skaritka, JR, van Steenbergen, A, Yakimenko, VE, Cline, DB & et al, A 2000, 'Inverse Cerenkov acceleration and inverse free-electron laser experimental results for staged electron laser acceleration', IEEE Transactions on Plasma Science, vol. 28, no. 4, pp. 1143-1151. https://doi.org/10.1109/27.893294

TY - JOUR

T1 - Inverse Cerenkov acceleration and inverse free-electron laser experimental results for staged electron laser acceleration

AU - Campbell, Lora P.

AU - Dilley, Christian E.

AU - Gottschalk, Stephen C.

AU - Kimura, Wayne D.

AU - Quimby, David C.

AU - Steinhauer, Loren C.

AU - Babzien, Marcus

AU - Ben-Zvi, Ilan

AU - Gallardo, Juan C.

AU - Kusche, Karl P.

AU - Pogorelsky, Igor V.

AU - Skaritka, John R.

AU - van Steenbergen, Arie

AU - Yakimenko, Vitlay E.

AU - Cline, David B.

AU - et al, al

PY - 2000/8

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N2 - The goal of the staged electron laser acceleration (STELLA) experiment is to demonstrate staging of the laser acceleration process whereby an inverse free electron laser (IFEL) will be used to prebunch the electrons, which are then accelerated in an inverse Cerenkov accelerator (ICA). As preparation for this experiment, a new permanent magnet wiggler for the IFEL was constructed and the ICA system was modified. Both systems have been tested on a new beamline specifically built for STELLA. The improved electron beam (e-beam) with its very low emittance (0.8 mm-mrad normalized) enabled focusing the e-beam to an average radius (1σ) of 65 μm within the ICA interaction region. This small e-beam focus greatly enhanced the ICA process and resulted in electron energy spectra that have demonstrated the best agreement to date in both overall shape and magnitude with the model predictions. The electron energy spectrum using the new wiggler in the IFEL was also measured. These results will be described as well as future improvements to the STELLA experiment.

AB - The goal of the staged electron laser acceleration (STELLA) experiment is to demonstrate staging of the laser acceleration process whereby an inverse free electron laser (IFEL) will be used to prebunch the electrons, which are then accelerated in an inverse Cerenkov accelerator (ICA). As preparation for this experiment, a new permanent magnet wiggler for the IFEL was constructed and the ICA system was modified. Both systems have been tested on a new beamline specifically built for STELLA. The improved electron beam (e-beam) with its very low emittance (0.8 mm-mrad normalized) enabled focusing the e-beam to an average radius (1σ) of 65 μm within the ICA interaction region. This small e-beam focus greatly enhanced the ICA process and resulted in electron energy spectra that have demonstrated the best agreement to date in both overall shape and magnitude with the model predictions. The electron energy spectrum using the new wiggler in the IFEL was also measured. These results will be described as well as future improvements to the STELLA experiment.

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DO - 10.1109/27.893294

M3 - Article

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SN - 0093-3813

VL - 28

SP - 1143

EP - 1151

JO - IEEE Transactions on Plasma Science

JF - IEEE Transactions on Plasma Science

IS - 4

ER -

Inverse Cerenkov acceleration and inverse free-electron laser experimental results for staged electron laser acceleration

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