CompactLight design study

G. D’Auria, Markus Aicheler,Avni Aksoy, D. Alesini, R. Apsimon, Jordan Matias Arnesano, M. Bellaveglia,Axel Bernhard, Fabio Bosco, B. Buonomo,Graeme Burt, M. Calvi, F. Cardelli, Hector Mauricio Castañeda Cortés,Alejandro Castilla, James Clarke, M. Croia,Adrian W. Cross, G. Dattoli,S. Di Mitri, M. Diomede,Rohan Dowd, David Dunning, Wending Fang, A. Faus‐Golfe, M. Ferrario, L. Ficcadenti, A. Gallo, E. N. Gazis, Nikolaos Gazis, Raffaella Geometrante, Julian Gethmann,Anna Giribono,Vitaliy Goryashko, Yanliang Han, M. Jacewicz, Xander Janssen, Mirko Kokole, A. Latina, Xingguang Liu,Jom Luiten, Jordi Marcos,Eduardo Marín, A. Mostacci, P.H.A. Mutsaers, Raquel Muñoz Horta, F. Nguyen, L. Palumbo, Francis Pérez,A. Petralia, L. Piersanti, Johannes Priem, R. Rochow, C. Rossi, Roger Ruber, Thomas Schmidt,Daniel Schulte, B. Spataro, S. Stapnes, X.F.D. Stragier, G. N. Taylor,Neil Thompson, C. Vaccarezza,Xiaowei Wu,Walter Wuensch, Kai Zhang,Liang Zhang, Di Zhu, E. Tanke, E. Trachanas, Z. Negris, D. Esperante, J. Fuster, B. Gimeno,Daniel González-Iglesias, Ronnie Hoekstra, Laurence Nix

HAL (Le Centre pour la Communication Scientifique Directe)（2019）

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摘要

The H₂020 CompactLight Project (www. CompactLight.eu) aims at designing the next generation of compact X-rays Free-Electron Lasers, relying on very high gradient accelerating structures (X-band, 12 GHz), the most advanced concepts for bright electron photo injectors, and innovative compact short-period undulators. Compared to existing facilities, the proposed facility will benefit from a lower electron beam energy, due to the enhanced undulators performance, and will be significantly more compact, with a smaller footprint, as a consequence of the lower energy and the high-gradient X-band structures. In addition, the whole infrastructure will also have a lower electrical power demand as well as lower construction and running costs.

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compactlight design study

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