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Undulators and Light Production with the XLS-CompactLight Design Study

F. Nguyen, M. Carpanese,A. Petralia, A. Bernhard, J. Arnsberg,S. Fatehi, J. Gethmann,S. Grohmann, B. Krasch, T. Schmidt,M. Calvi, S. Danner, K. Zhang, N. Thompson, J. A. Clarke, H. M. Castañeda Cortés, D. J. Dunning, A. Hinton,B. Shepherd, R. Geometrante, M. Kokole, T. Milharcic, J. Pockar,A. Aksoy,Z. Nergiz,J. Marcos,F. Perez, A. W. Cross, L. Zhang,D. Zhu, S. C. Richter, A. Latina,A. Cianchi,V. Goryashko, G. D’Auria,S. Di Mitri, R. Rochow

Moscow University Physics Bulletin(2022)

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摘要
Free electron laser (FEL) facilities provide broadly tunable and highly coherent photon beams. These machines still have an unexplored potential and development. The XLS-CompactLight design aims at a flexible hard plus soft X-ray FEL facility exploiting the latest concepts in terms of short period magnetic undulators, paving the road towards more compact photon sources.
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free-electron laser,undulator magnet
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