The CompactLight Design Study
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Published:2024-03-22
Issue:1
Volume:233
Page:1-208
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ISSN:1951-6355
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Container-title:The European Physical Journal Special Topics
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language:en
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Short-container-title:Eur. Phys. J. Spec. Top.
Author:
D’Auria G.,Adli E.,Aicheler M.,Aksoy A.,Alesini D.,Apsimon R.,Arnsberg J.,Auchettl R.,Bainbridge A.,Balazs K.,Bantekas D.,Bedolla J.,Behtouei M.,Bellaveglia M.,vd Berg M.,Bernhard A.,Bignami A.,Breitenbach M.,Breukers M.,Burt G.,Cai J.,Calvi M.,Cardelli F.,Carpanese M.,Cortes H. M. Castaneda,Castilla A.,Cianchi A.,Clarke J.,Cowie L.,Croia M.,Cross A.,Danailov M.,Dattoli G.,Deleval S.,Mitri S. Di,Diomede M.,Dowd R.,Dunning D.,Easton J.,Fang W.,Fatehi S.,Faus-Golfe A.,Ferianis M.,Ferrario M.,Ficcadenti L.,Gallo A.,Gazis E.,Gazis N.,Geometrante R.,Gethmann J.,Gioppo R.,Giribono A.,González-Iglesias D.,Goryashko V.,Grohmann S.,Gu Q.,Han Y.,Hinton A.,Hobi A.,Hoekstra R.,Huang X.,Jacewicz M.,Jones J.,Kaertner F.,Karagiannaki A.,Kokole M.,Kotitsa R.,Kotsopoulos D.,Krasch B.,Latina A.,Lepercq P.,Liu X.,Lucas T. G.,Luiten O. J.,Maheshwari M.,Mahnic J.,Mak A.,Marcos J.,Marin E.,Marinov K.,Martínez B. G.,Mercier B.,Migliorati M.,Milharcic T.,Mostacci A.,Mu noz R.,Musat V.,Mutsaers P. H. A.,Nergiz Z.,Nguyen F.,Nix L.,Palumbo L.,Parodi M.,Pavlica R.,Pellegrino L.,Pereira D. E.,Perez F.,Petralia A.,Piersanti L.,Pockar J.,Pramatari K.,Priem H.,Primozic U.,Rassool R.,Reiche S.,Revilak P.,Richter S. C.,Rochow R.,Rossi C.,Salén P.,Schmidt T.,Schoerling D.,Schulte D.,Scifo J.,Sheehy S.,Shepherd B.,Spataro B.,Stapnes S.,Stragier X. F. D.,Syratchev I.,Tabacco C.,Tan J.,Tanke E.,Taylor G.,Telahi I.,Thompson N.,Trachanas E.,Tzanetou K. S.,Vaccarezza C.,Vainola J.,Vannozzi A.,Volpi M.,Wang C.,Williams P.,Wu X.,Wuensch W.,Yap J.,Zangrando M.,Zhang K.,Zhang L.,Zhao Y.,Zhao Z.,Zhu D.
Abstract
AbstractCompactLight is a Design Study funded by the European Union under the
Horizon 2020 research and innovation funding programme, with Grant Agreement No. 777431.
CompactLight was conducted by an International Collaboration of 23 international
laboratories and academic institutions, three private companies, and five third parties.
The project, which started in January 2018 with a duration of 48 months, aimed to design
an innovative, compact, and cost-effective hard X-ray FEL facility complemented by a
soft X-ray source to pave the road for future compact accelerator-based facilities. The
result is an accelerator that can be operated at up to 1 kHz pulse repetition rate,
beyond today’s state of the art, using the latest concepts for high brightness electron
photoinjectors, very high gradient accelerating structures in X-band, and novel
short-period undulators. In this report, we summarize the main deliverable of the
project: the CompactLight Conceptual Design Report, which overviews the current status
of the design and addresses the main technological challenges.
Funder
Horizon 2020 Framework
Programme
Publisher
Springer Science and Business Media LLC
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