Energy spread tuning of a laser-plasma accelerated electron beam in a magnetic chicane

E. Roussel; T. André; I. Andriyash; F. Blache; F. Bouvet; S. Corde; D. Oumbarek Espinos; A. Ghaith; Goddet J-P Goddet; C. Kitegi; O. Kononenko; M. Labat; G. Lambert; A. Lestrade; A. Loulergue; F. Marteau; O. Marcouillé; M. Sebdaoui; A. Tafzi; K. Tavakoli; C. Thaury; M. Valléau; V. Malka; M. E. Couprie

doi:10.1088/1361-6587/ab8ca0

Energy spread tuning of a laser-plasma accelerated electron beam in a magnetic chicane

E. Roussel
, T. André
, I. Andriyash
, F. Blache
, F. Bouvet
, S. Corde
, D. Oumbarek Espinos
, A. Ghaith
, Goddet J-P Goddet
, C. Kitegi
, O. Kononenko
, M. Labat
, G. Lambert
, A. Lestrade
, A. Loulergue
, F. Marteau
, O. Marcouillé
, M. Sebdaoui
, A. Tafzi
, K. Tavakoli

C. Thaury, M. Valléau, V. Malka, M. E. Couprie

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

Abstract

Laser-plasma accelerators (LPA) deliver relativistic electron beams with high peak current and low emittance, with energies up to the GeV-level in only few centimetres. However, the divergence and the energy spread of these beams remain too large for potential light source applications. A magnetic transfer line can be used to manipulate the electron beam phase-space and select the transmitted energies with a slit located at its center. We will show that with a proper focusing optics along the line, one can tune the energy spread of the beam at a given energy without loss and produce undulator radiation with controlled bandwidth. We present analytic studies, numerical simulations and experimental results on the controled electron beam transport and application to undulator radiation with a control of the bandwidth.

Original language	English
Article number	074003
Journal	Plasma Physics and Controlled Fusion
Volume	62
Issue number	7
DOIs	https://doi.org/10.1088/1361-6587/ab8ca0
Publication status	Published - 1 Jul 2020

Keywords

electron beam transport
laser-plasma acceleration
synchrotron radiation

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10.1088/1361-6587/ab8ca0

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Roussel, E., André, T., Andriyash, I., Blache, F., Bouvet, F., Corde, S., Oumbarek Espinos, D., Ghaith, A., J-P Goddet, G., Kitegi, C., Kononenko, O., Labat, M., Lambert, G., Lestrade, A., Loulergue, A., Marteau, F., Marcouillé, O., Sebdaoui, M., Tafzi, A., ... Couprie, M. E. (2020). Energy spread tuning of a laser-plasma accelerated electron beam in a magnetic chicane. Plasma Physics and Controlled Fusion, 62(7), Article 074003. https://doi.org/10.1088/1361-6587/ab8ca0

@article{78462862dc734ed4af4e3fe3d75ec87e,

title = "Energy spread tuning of a laser-plasma accelerated electron beam in a magnetic chicane",

abstract = "Laser-plasma accelerators (LPA) deliver relativistic electron beams with high peak current and low emittance, with energies up to the GeV-level in only few centimetres. However, the divergence and the energy spread of these beams remain too large for potential light source applications. A magnetic transfer line can be used to manipulate the electron beam phase-space and select the transmitted energies with a slit located at its center. We will show that with a proper focusing optics along the line, one can tune the energy spread of the beam at a given energy without loss and produce undulator radiation with controlled bandwidth. We present analytic studies, numerical simulations and experimental results on the controled electron beam transport and application to undulator radiation with a control of the bandwidth.",

keywords = "electron beam transport, laser-plasma acceleration, synchrotron radiation",

author = "E. Roussel and T. Andr{\'e} and I. Andriyash and F. Blache and F. Bouvet and S. Corde and \{Oumbarek Espinos\}, D. and A. Ghaith and \{J-P Goddet\}, Goddet and C. Kitegi and O. Kononenko and M. Labat and G. Lambert and A. Lestrade and A. Loulergue and F. Marteau and O. Marcouill{\'e} and M. Sebdaoui and A. Tafzi and K. Tavakoli and C. Thaury and M. Vall{\'e}au and V. Malka and Couprie, \{M. E.\}",

note = "Publisher Copyright: {\textcopyright} 2020 IOP Publishing Ltd.",

year = "2020",

month = jul,

day = "1",

doi = "10.1088/1361-6587/ab8ca0",

language = "English",

volume = "62",

journal = "Plasma Physics and Controlled Fusion",

issn = "0741-3335",

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Roussel, E, André, T, Andriyash, I, Blache, F, Bouvet, F, Corde, S, Oumbarek Espinos, D, Ghaith, A, J-P Goddet, G, Kitegi, C, Kononenko, O, Labat, M, Lambert, G, Lestrade, A, Loulergue, A, Marteau, F, Marcouillé, O, Sebdaoui, M, Tafzi, A, Tavakoli, K, Thaury, C, Valléau, M, Malka, V & Couprie, ME 2020, 'Energy spread tuning of a laser-plasma accelerated electron beam in a magnetic chicane', Plasma Physics and Controlled Fusion, vol. 62, no. 7, 074003. https://doi.org/10.1088/1361-6587/ab8ca0

TY - JOUR

T1 - Energy spread tuning of a laser-plasma accelerated electron beam in a magnetic chicane

AU - Roussel, E.

AU - André, T.

AU - Andriyash, I.

AU - Blache, F.

AU - Bouvet, F.

AU - Corde, S.

AU - Oumbarek Espinos, D.

AU - Ghaith, A.

AU - J-P Goddet, Goddet

AU - Kitegi, C.

AU - Kononenko, O.

AU - Labat, M.

AU - Lambert, G.

AU - Lestrade, A.

AU - Loulergue, A.

AU - Marteau, F.

AU - Marcouillé, O.

AU - Sebdaoui, M.

AU - Tafzi, A.

AU - Tavakoli, K.

AU - Thaury, C.

AU - Valléau, M.

AU - Malka, V.

AU - Couprie, M. E.

PY - 2020/7/1

Y1 - 2020/7/1

N2 - Laser-plasma accelerators (LPA) deliver relativistic electron beams with high peak current and low emittance, with energies up to the GeV-level in only few centimetres. However, the divergence and the energy spread of these beams remain too large for potential light source applications. A magnetic transfer line can be used to manipulate the electron beam phase-space and select the transmitted energies with a slit located at its center. We will show that with a proper focusing optics along the line, one can tune the energy spread of the beam at a given energy without loss and produce undulator radiation with controlled bandwidth. We present analytic studies, numerical simulations and experimental results on the controled electron beam transport and application to undulator radiation with a control of the bandwidth.

AB - Laser-plasma accelerators (LPA) deliver relativistic electron beams with high peak current and low emittance, with energies up to the GeV-level in only few centimetres. However, the divergence and the energy spread of these beams remain too large for potential light source applications. A magnetic transfer line can be used to manipulate the electron beam phase-space and select the transmitted energies with a slit located at its center. We will show that with a proper focusing optics along the line, one can tune the energy spread of the beam at a given energy without loss and produce undulator radiation with controlled bandwidth. We present analytic studies, numerical simulations and experimental results on the controled electron beam transport and application to undulator radiation with a control of the bandwidth.

KW - electron beam transport

KW - laser-plasma acceleration

KW - synchrotron radiation

UR - https://www.scopus.com/pages/publications/85086563451

U2 - 10.1088/1361-6587/ab8ca0

DO - 10.1088/1361-6587/ab8ca0

M3 - Article

AN - SCOPUS:85086563451

SN - 0741-3335

VL - 62

JO - Plasma Physics and Controlled Fusion

JF - Plasma Physics and Controlled Fusion

IS - 7

M1 - 074003

ER -

Energy spread tuning of a laser-plasma accelerated electron beam in a magnetic chicane

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