Acceleration and focusing of relativistic electron beams in a compact plasma device

R. Pompili; M. P. Anania; A. Biagioni; M. Carillo; E. Chiadroni; A. Cianchi; G. Costa; A. Curcio; L. Crincoli; A. Del Dotto; M. Del Giorno; F. Demurtas; M. Galletti; A. Giribono; V. Lollo; M. Opromolla; G. Parise; D. Pellegrini; G. Di Pirro; S. Romeo; G. J. Silvi; L. Verra; F. Villa; A. Zigler; M. Ferrario

doi:10.1103/physreve.109.055202

Acceleration and focusing of relativistic electron beams in a compact plasma device

R. Pompili, M. P. Anania, A. Biagioni, M. Carillo, E. Chiadroni, A. Cianchi, G. Costa, A. Curcio, L. Crincoli, A. Del Dotto, M. Del Giorno, F. Demurtas, M. Galletti, A. Giribono, V. Lollo, M. Opromolla, G. Parise, D. Pellegrini, G. Di Pirro, S. RomeoG. J. Silvi, L. Verra, F. Villa, A. Zigler, M. Ferrario

Racah Institute of Physics

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

1 Scopus citations

Abstract

Plasma wakefield acceleration represented a breakthrough in the field of particle accelerators by pushing beams to gigaelectronvolt energies within centimeter distances. The large electric fields excited by a driver pulse in the plasma can efficiently accelerate a trailing witness bunch paving the way toward the realization of laboratory-scale applications like free-electron lasers. However, while the accelerator size is tremendously reduced, upstream and downstream of it the beams are still handled with conventional magnetic optics with sizable footprints and rather long focal lengths. Here we show the operation of a compact device that integrates two active-plasma lenses with short focal lengths to assist the plasma accelerator stage. We demonstrate the focusing and energy gain of a witness bunch whose phase space is completely characterized in terms of energy and emittance. These results represent an important step toward the accelerator miniaturization and the development of next-generation table-top machines.

Original language	English
Article number	055202
Journal	Physical Review E
Volume	109
Issue number	5
DOIs	https://doi.org/10.1103/physreve.109.055202
State	Published - May 2024

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© 2024 American Physical Society.

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Pompili, R., Anania, M. P., Biagioni, A., Carillo, M., Chiadroni, E., Cianchi, A., Costa, G., Curcio, A., Crincoli, L., Del Dotto, A., Del Giorno, M., Demurtas, F., Galletti, M., Giribono, A., Lollo, V., Opromolla, M., Parise, G., Pellegrini, D., Di Pirro, G., ... Ferrario, M. (2024). Acceleration and focusing of relativistic electron beams in a compact plasma device. Physical Review E, 109(5), Article 055202. https://doi.org/10.1103/physreve.109.055202

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title = "Acceleration and focusing of relativistic electron beams in a compact plasma device",

abstract = "Plasma wakefield acceleration represented a breakthrough in the field of particle accelerators by pushing beams to gigaelectronvolt energies within centimeter distances. The large electric fields excited by a driver pulse in the plasma can efficiently accelerate a trailing witness bunch paving the way toward the realization of laboratory-scale applications like free-electron lasers. However, while the accelerator size is tremendously reduced, upstream and downstream of it the beams are still handled with conventional magnetic optics with sizable footprints and rather long focal lengths. Here we show the operation of a compact device that integrates two active-plasma lenses with short focal lengths to assist the plasma accelerator stage. We demonstrate the focusing and energy gain of a witness bunch whose phase space is completely characterized in terms of energy and emittance. These results represent an important step toward the accelerator miniaturization and the development of next-generation table-top machines.",

author = "R. Pompili and Anania, {M. P.} and A. Biagioni and M. Carillo and E. Chiadroni and A. Cianchi and G. Costa and A. Curcio and L. Crincoli and {Del Dotto}, A. and {Del Giorno}, M. and F. Demurtas and M. Galletti and A. Giribono and V. Lollo and M. Opromolla and G. Parise and D. Pellegrini and {Di Pirro}, G. and S. Romeo and Silvi, {G. J.} and L. Verra and F. Villa and A. Zigler and M. Ferrario",

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year = "2024",

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doi = "10.1103/physreve.109.055202",

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Pompili, R, Anania, MP, Biagioni, A, Carillo, M, Chiadroni, E, Cianchi, A, Costa, G, Curcio, A, Crincoli, L, Del Dotto, A, Del Giorno, M, Demurtas, F, Galletti, M, Giribono, A, Lollo, V, Opromolla, M, Parise, G, Pellegrini, D, Di Pirro, G, Romeo, S, Silvi, GJ, Verra, L, Villa, F, Zigler, A & Ferrario, M 2024, 'Acceleration and focusing of relativistic electron beams in a compact plasma device', Physical Review E, vol. 109, no. 5, 055202. https://doi.org/10.1103/physreve.109.055202

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AU - Pompili, R.

AU - Anania, M. P.

AU - Biagioni, A.

AU - Carillo, M.

AU - Chiadroni, E.

AU - Cianchi, A.

AU - Costa, G.

AU - Curcio, A.

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AU - Del Dotto, A.

AU - Del Giorno, M.

AU - Demurtas, F.

AU - Galletti, M.

AU - Giribono, A.

AU - Lollo, V.

AU - Opromolla, M.

AU - Parise, G.

AU - Pellegrini, D.

AU - Di Pirro, G.

AU - Romeo, S.

AU - Silvi, G. J.

AU - Verra, L.

AU - Villa, F.

AU - Zigler, A.

AU - Ferrario, M.

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AB - Plasma wakefield acceleration represented a breakthrough in the field of particle accelerators by pushing beams to gigaelectronvolt energies within centimeter distances. The large electric fields excited by a driver pulse in the plasma can efficiently accelerate a trailing witness bunch paving the way toward the realization of laboratory-scale applications like free-electron lasers. However, while the accelerator size is tremendously reduced, upstream and downstream of it the beams are still handled with conventional magnetic optics with sizable footprints and rather long focal lengths. Here we show the operation of a compact device that integrates two active-plasma lenses with short focal lengths to assist the plasma accelerator stage. We demonstrate the focusing and energy gain of a witness bunch whose phase space is completely characterized in terms of energy and emittance. These results represent an important step toward the accelerator miniaturization and the development of next-generation table-top machines.

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Acceleration and focusing of relativistic electron beams in a compact plasma device

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