Free Electron Laser Performance within the EuPRAXIA Facility

Free Electron Laser Performance within the EuPRAXIA Facility

Over the past 90 years, particle accelerators have evolved into powerful and widely used tools for basic research, industry, medicine, and science. A new type of accelerator that uses plasma wakefields promises gradients as high as some tens of billions of electron volts per meter. This would allow...

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Main Authors: Federico Nguyen, Axel Bernhard, Antoine Chancé, Marie-Emmanuelle Couprie, Giuseppe Dattoli, Christoph Lechner, Alberto Marocchino, Gilles Maynard, Alberto Petralia, Andrea Renato Rossi
Format: Article
Language:English
Published: MDPI AG 2020-02-01
Series:Instruments
Subjects:
free-electron laser
laser–plasma accelerator
undulator magnet
Online Access:https://www.mdpi.com/2410-390X/4/1/5
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spelling doaj-9223ff3590264b3cae212760ae8af9652020-11-25T01:42:25ZengMDPI AGInstruments2410-390X2020-02-0141510.3390/instruments4010005instruments4010005Free Electron Laser Performance within the EuPRAXIA FacilityFederico Nguyen0Axel Bernhard1Antoine Chancé2Marie-Emmanuelle Couprie3Giuseppe Dattoli4Christoph Lechner5Alberto Marocchino6Gilles Maynard7Alberto Petralia8Andrea Renato Rossi9ENEA, 00044 Frascati, ItalyKarlsruhe Institute of Technology, 76131 Karlsruhe, GermanyCEA-Irfu, 91191 Gif-sur-Yvette, FranceSynchrotron SOLEIL, 91192 Gif-sur-Yvette, FranceENEA, 00044 Frascati, ItalyDeutsches Elektronen-Synchrotron DESY, 22603 Hamburg, GermanyVia di Grotta Perfetta, 00142 Rome, ItalyCNRS & Université Paris-Sud, 91405 Orsay, FranceENEA, 00044 Frascati, ItalyINFN Sezione di Milano, 20133 Milan, ItalyOver the past 90 years, particle accelerators have evolved into powerful and widely used tools for basic research, industry, medicine, and science. A new type of accelerator that uses plasma wakefields promises gradients as high as some tens of billions of electron volts per meter. This would allow much smaller accelerators that could be used for a wide range of fundamental and applied research applications. One of the target applications is a plasma-driven free-electron laser (FEL), aiming at producing tunable coherent light using electrons traveling in the periodic magnetic field of an undulator. In this work, the plasma-based electron beams with the most promising qualities, designed in the framework of EuPRAXIA, are analyzed in terms of the FEL performance.https://www.mdpi.com/2410-390X/4/1/5free-electron laserlaser–plasma acceleratorundulator magnet
collection DOAJ
language English
format Article
sources DOAJ
author Federico Nguyen
Axel Bernhard
Antoine Chancé
Marie-Emmanuelle Couprie
Giuseppe Dattoli
Christoph Lechner
Alberto Marocchino
Gilles Maynard
Alberto Petralia
Andrea Renato Rossi
spellingShingle Federico Nguyen
Axel Bernhard
Antoine Chancé
Marie-Emmanuelle Couprie
Giuseppe Dattoli
Christoph Lechner
Alberto Marocchino
Gilles Maynard
Alberto Petralia
Andrea Renato Rossi
Free Electron Laser Performance within the EuPRAXIA Facility
Instruments
free-electron laser
laser–plasma accelerator
undulator magnet
author_facet Federico Nguyen
Axel Bernhard
Antoine Chancé
Marie-Emmanuelle Couprie
Giuseppe Dattoli
Christoph Lechner
Alberto Marocchino
Gilles Maynard
Alberto Petralia
Andrea Renato Rossi
author_sort Federico Nguyen
title Free Electron Laser Performance within the EuPRAXIA Facility
title_short Free Electron Laser Performance within the EuPRAXIA Facility
title_full Free Electron Laser Performance within the EuPRAXIA Facility
title_fullStr Free Electron Laser Performance within the EuPRAXIA Facility
title_full_unstemmed Free Electron Laser Performance within the EuPRAXIA Facility
title_sort free electron laser performance within the eupraxia facility
publisher MDPI AG
series Instruments
issn 2410-390X
publishDate 2020-02-01
description Over the past 90 years, particle accelerators have evolved into powerful and widely used tools for basic research, industry, medicine, and science. A new type of accelerator that uses plasma wakefields promises gradients as high as some tens of billions of electron volts per meter. This would allow much smaller accelerators that could be used for a wide range of fundamental and applied research applications. One of the target applications is a plasma-driven free-electron laser (FEL), aiming at producing tunable coherent light using electrons traveling in the periodic magnetic field of an undulator. In this work, the plasma-based electron beams with the most promising qualities, designed in the framework of EuPRAXIA, are analyzed in terms of the FEL performance.
topic free-electron laser
laser–plasma accelerator
undulator magnet
url https://www.mdpi.com/2410-390X/4/1/5
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