Low power commissioning of an innovative laser beam circulator for inverse Compton scattering γ-ray source

Low power commissioning of an innovative laser beam circulator for inverse Compton scattering γ-ray source

We report on the optical commissioning of the high power laser beam circulator for the high brightness Compton γ-ray source Extreme Light Infrastructure for Nuclear Physics. Tests aiming at demonstrating the optical performances of the laser beam circulator have been realized with a low-power pulsed...

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Main Authors: Cheikh Fall Ndiaye, Kevin Cassou, Patrick Cornebise, Kevin Dupraz, Denis Douillet, Titouan Le Barillec, Christopher Magueur, Aurélien Martens, Daniele Nutarelli, Yann Peinaud, Alice Thiébault, Themistoklis Williams, Fabian Zomer, Nicolas Beaugérard, Bastien Lacrampe, Hervé Rocipon, David Alesini, Fabio Cardelli, Antonio Falone, Giovanni Franzini, Alessandro Gallo, Simona Incremona, Luca Piersanti, Valerio Petinacci, Stefano Pioli, Alessandro Variola, Andrea Mostacci, L. Serafini
Format: Article
Language:English
Published: American Physical Society 2019-09-01
Series:Physical Review Accelerators and Beams
Online Access:http://doi.org/10.1103/PhysRevAccelBeams.22.093501
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spelling doaj-3e37a26dc74e4d1daed6a2b4e5d372f62020-11-25T02:35:50ZengAmerican Physical SocietyPhysical Review Accelerators and Beams2469-98882019-09-0122909350110.1103/PhysRevAccelBeams.22.093501Low power commissioning of an innovative laser beam circulator for inverse Compton scattering γ-ray sourceCheikh Fall NdiayeKevin CassouPatrick CornebiseKevin DuprazDenis DouilletTitouan Le BarillecChristopher MagueurAurélien MartensDaniele NutarelliYann PeinaudAlice ThiébaultThemistoklis WilliamsFabian ZomerNicolas BeaugérardBastien LacrampeHervé RociponDavid AlesiniFabio CardelliAntonio FaloneGiovanni FranziniAlessandro GalloSimona IncremonaLuca PiersantiValerio PetinacciStefano PioliAlessandro VariolaAndrea MostacciL. SerafiniWe report on the optical commissioning of the high power laser beam circulator for the high brightness Compton γ-ray source Extreme Light Infrastructure for Nuclear Physics. Tests aiming at demonstrating the optical performances of the laser beam circulator have been realized with a low-power pulsed laser-beam system and without electron beam. We show that, with the developed alignment and synchronization methods coming from the laser beam circulator design study presented in the Dupraz et al. paper [Phys. Rev. Accel. Beams 17, 033501 (2014)], the laser beam circulator enhances the laser-beam power available at the interaction point by a factor in excess of 25. This corresponds to a potential of bringing the average laser-beam power in excess of 1 kW when the laser beam circulator is injected with the interaction point laser-beam pulse energy of 400 mJ at 100 Hz.http://doi.org/10.1103/PhysRevAccelBeams.22.093501
collection DOAJ
language English
format Article
sources DOAJ
author Cheikh Fall Ndiaye
Kevin Cassou
Patrick Cornebise
Kevin Dupraz
Denis Douillet
Titouan Le Barillec
Christopher Magueur
Aurélien Martens
Daniele Nutarelli
Yann Peinaud
Alice Thiébault
Themistoklis Williams
Fabian Zomer
Nicolas Beaugérard
Bastien Lacrampe
Hervé Rocipon
David Alesini
Fabio Cardelli
Antonio Falone
Giovanni Franzini
Alessandro Gallo
Simona Incremona
Luca Piersanti
Valerio Petinacci
Stefano Pioli
Alessandro Variola
Andrea Mostacci
L. Serafini
spellingShingle Cheikh Fall Ndiaye
Kevin Cassou
Patrick Cornebise
Kevin Dupraz
Denis Douillet
Titouan Le Barillec
Christopher Magueur
Aurélien Martens
Daniele Nutarelli
Yann Peinaud
Alice Thiébault
Themistoklis Williams
Fabian Zomer
Nicolas Beaugérard
Bastien Lacrampe
Hervé Rocipon
David Alesini
Fabio Cardelli
Antonio Falone
Giovanni Franzini
Alessandro Gallo
Simona Incremona
Luca Piersanti
Valerio Petinacci
Stefano Pioli
Alessandro Variola
Andrea Mostacci
L. Serafini
Low power commissioning of an innovative laser beam circulator for inverse Compton scattering γ-ray source
Physical Review Accelerators and Beams
author_facet Cheikh Fall Ndiaye
Kevin Cassou
Patrick Cornebise
Kevin Dupraz
Denis Douillet
Titouan Le Barillec
Christopher Magueur
Aurélien Martens
Daniele Nutarelli
Yann Peinaud
Alice Thiébault
Themistoklis Williams
Fabian Zomer
Nicolas Beaugérard
Bastien Lacrampe
Hervé Rocipon
David Alesini
Fabio Cardelli
Antonio Falone
Giovanni Franzini
Alessandro Gallo
Simona Incremona
Luca Piersanti
Valerio Petinacci
Stefano Pioli
Alessandro Variola
Andrea Mostacci
L. Serafini
author_sort Cheikh Fall Ndiaye
title Low power commissioning of an innovative laser beam circulator for inverse Compton scattering γ-ray source
title_short Low power commissioning of an innovative laser beam circulator for inverse Compton scattering γ-ray source
title_full Low power commissioning of an innovative laser beam circulator for inverse Compton scattering γ-ray source
title_fullStr Low power commissioning of an innovative laser beam circulator for inverse Compton scattering γ-ray source
title_full_unstemmed Low power commissioning of an innovative laser beam circulator for inverse Compton scattering γ-ray source
title_sort low power commissioning of an innovative laser beam circulator for inverse compton scattering γ-ray source
publisher American Physical Society
series Physical Review Accelerators and Beams
issn 2469-9888
publishDate 2019-09-01
description We report on the optical commissioning of the high power laser beam circulator for the high brightness Compton γ-ray source Extreme Light Infrastructure for Nuclear Physics. Tests aiming at demonstrating the optical performances of the laser beam circulator have been realized with a low-power pulsed laser-beam system and without electron beam. We show that, with the developed alignment and synchronization methods coming from the laser beam circulator design study presented in the Dupraz et al. paper [Phys. Rev. Accel. Beams 17, 033501 (2014)], the laser beam circulator enhances the laser-beam power available at the interaction point by a factor in excess of 25. This corresponds to a potential of bringing the average laser-beam power in excess of 1 kW when the laser beam circulator is injected with the interaction point laser-beam pulse energy of 400 mJ at 100 Hz.
url http://doi.org/10.1103/PhysRevAccelBeams.22.093501
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