Free electron lasers driven by plasma accelerators: Status and near-term prospects

C. Emma; J. Van Tilborg; R. Assmann; S. Barber; A. Cianchi; S. Corde; M. E. Couprie; R. D'Arcy; M. Ferrario; A. F. Habib; B. Hidding; M. J. Hogan; C. B. Schroeder; A. Marinelli; M. Labat; R. Li; J. Liu; A. Loulergue; J. Osterhoff; A. R. Maier; B. W.J. McNeil; W. Wang

doi:10.1017/hpl.2021.39

Free electron lasers driven by plasma accelerators: Status and near-term prospects

C. Emma
, J. Van Tilborg
, R. Assmann
, S. Barber
, A. Cianchi
, S. Corde
, M. E. Couprie
, R. D'Arcy
, M. Ferrario
, A. F. Habib
, B. Hidding
, M. J. Hogan
, C. B. Schroeder
, A. Marinelli
, M. Labat
, R. Li
, J. Liu
, A. Loulergue
, J. Osterhoff
, A. R. Maier

B. W.J. McNeil, W. Wang

Stanford Linear Accelerator Center
Ernest Orlando Lawrence Berkeley National Laboratory
c/o DESY
LNF-INFN
Synchrotron SOLEIL
University of Strathclyde
Shanghai Institute of Optics and Fine Mechanics Chinese Academy of Sciences
Sci-Tech Daresbury

Résultats de recherche: Contribution à un journal › Article de révision › Revue par des pairs

Résumé

Owing to their ultra-high accelerating gradients, combined with injection inside micrometer-scale accelerating wakefield buckets, plasma-based accelerators hold great potential to drive a new generation of free-electron lasers (FELs). Indeed, the first demonstration of plasma-driven FEL gain was reported recently, representing a major milestone for the field. Several groups around the world are pursuing these novel light sources, with methodology varying in the use of wakefield driver (laser-driven or beam-driven), plasma structure, phase-space manipulation, beamline design, and undulator technology, among others. This paper presents our best attempt to provide a comprehensive overview of the global community efforts towards plasma-based FEL research and development.

langue originale	Anglais
Numéro d'article	e57
journal	High Power Laser Science and Engineering
Volume	9
Les DOIs	https://doi.org/10.1017/hpl.2021.39
état	Publié - 10 sept. 2021

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10.1017/hpl.2021.39

Contient cette citation

Emma, C., Van Tilborg, J., Assmann, R., Barber, S., Cianchi, A., Corde, S., Couprie, M. E., D'Arcy, R., Ferrario, M., Habib, A. F., Hidding, B., Hogan, M. J., Schroeder, C. B., Marinelli, A., Labat, M., Li, R., Liu, J., Loulergue, A., Osterhoff, J., ... Wang, W. (2021). Free electron lasers driven by plasma accelerators: Status and near-term prospects. High Power Laser Science and Engineering, 9, Article e57. https://doi.org/10.1017/hpl.2021.39

@article{a8b7b1e01a3d420e908ca3e62936f3d0,

title = "Free electron lasers driven by plasma accelerators: Status and near-term prospects",

abstract = "Owing to their ultra-high accelerating gradients, combined with injection inside micrometer-scale accelerating wakefield buckets, plasma-based accelerators hold great potential to drive a new generation of free-electron lasers (FELs). Indeed, the first demonstration of plasma-driven FEL gain was reported recently, representing a major milestone for the field. Several groups around the world are pursuing these novel light sources, with methodology varying in the use of wakefield driver (laser-driven or beam-driven), plasma structure, phase-space manipulation, beamline design, and undulator technology, among others. This paper presents our best attempt to provide a comprehensive overview of the global community efforts towards plasma-based FEL research and development.",

keywords = "free electron lasers, novel light sources, plasma accelerators",

author = "C. Emma and \{Van Tilborg\}, J. and R. Assmann and S. Barber and A. Cianchi and S. Corde and Couprie, \{M. E.\} and R. D'Arcy and M. Ferrario and Habib, \{A. F.\} and B. Hidding and Hogan, \{M. J.\} and Schroeder, \{C. B.\} and A. Marinelli and M. Labat and R. Li and J. Liu and A. Loulergue and J. Osterhoff and Maier, \{A. R.\} and McNeil, \{B. W.J.\} and W. Wang",

note = "Publisher Copyright: {\textcopyright} 2021 The Author(s). Published by Cambridge University Press in association with Chinese Laser Press.",

year = "2021",

month = sep,

day = "10",

doi = "10.1017/hpl.2021.39",

language = "English",

volume = "9",

journal = "High Power Laser Science and Engineering",

issn = "2052-3289",

}

Emma, C, Van Tilborg, J, Assmann, R, Barber, S, Cianchi, A, Corde, S, Couprie, ME, D'Arcy, R, Ferrario, M, Habib, AF, Hidding, B, Hogan, MJ, Schroeder, CB, Marinelli, A, Labat, M, Li, R, Liu, J, Loulergue, A, Osterhoff, J, Maier, AR, McNeil, BWJ & Wang, W 2021, 'Free electron lasers driven by plasma accelerators: Status and near-term prospects', High Power Laser Science and Engineering, VOL. 9, e57. https://doi.org/10.1017/hpl.2021.39

TY - JOUR

T1 - Free electron lasers driven by plasma accelerators

T2 - Status and near-term prospects

AU - Emma, C.

AU - Van Tilborg, J.

AU - Assmann, R.

AU - Barber, S.

AU - Cianchi, A.

AU - Corde, S.

AU - Couprie, M. E.

AU - D'Arcy, R.

AU - Ferrario, M.

AU - Habib, A. F.

AU - Hidding, B.

AU - Hogan, M. J.

AU - Schroeder, C. B.

AU - Marinelli, A.

AU - Labat, M.

AU - Li, R.

AU - Liu, J.

AU - Loulergue, A.

AU - Osterhoff, J.

AU - Maier, A. R.

AU - McNeil, B. W.J.

AU - Wang, W.

PY - 2021/9/10

Y1 - 2021/9/10

N2 - Owing to their ultra-high accelerating gradients, combined with injection inside micrometer-scale accelerating wakefield buckets, plasma-based accelerators hold great potential to drive a new generation of free-electron lasers (FELs). Indeed, the first demonstration of plasma-driven FEL gain was reported recently, representing a major milestone for the field. Several groups around the world are pursuing these novel light sources, with methodology varying in the use of wakefield driver (laser-driven or beam-driven), plasma structure, phase-space manipulation, beamline design, and undulator technology, among others. This paper presents our best attempt to provide a comprehensive overview of the global community efforts towards plasma-based FEL research and development.

AB - Owing to their ultra-high accelerating gradients, combined with injection inside micrometer-scale accelerating wakefield buckets, plasma-based accelerators hold great potential to drive a new generation of free-electron lasers (FELs). Indeed, the first demonstration of plasma-driven FEL gain was reported recently, representing a major milestone for the field. Several groups around the world are pursuing these novel light sources, with methodology varying in the use of wakefield driver (laser-driven or beam-driven), plasma structure, phase-space manipulation, beamline design, and undulator technology, among others. This paper presents our best attempt to provide a comprehensive overview of the global community efforts towards plasma-based FEL research and development.

KW - free electron lasers

KW - novel light sources

KW - plasma accelerators

U2 - 10.1017/hpl.2021.39

DO - 10.1017/hpl.2021.39

M3 - Review article

AN - SCOPUS:85115179667

SN - 2052-3289

VL - 9

JO - High Power Laser Science and Engineering

JF - High Power Laser Science and Engineering

M1 - e57

ER -

Free electron lasers driven by plasma accelerators: Status and near-term prospects

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