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The MING proposal at SHINE: megahertz cavity enhanced X-ray generation

Nan-Shun Huang,Zi-Peng Liu,Bang-Jie Deng,Zi-Han Zhu, Shao-Hua Li,Tao Liu,Zheng Qi,Jia-Wei Yan,Wei Zhang,Sheng-Wang Xiang,Yang-Yang Lei,Ya Zhu,Yong-Zhou He,Qi-Bing Yuan,Fei Gao,Rong-Bing Deng,Sen Sun, Zhi-Di Lei,Zhi-Qiang Jiang, Meng-Qi Duan, Yuan Zhuan, Xue-Fang Huang, Peng-Cheng Dong,Zhong-Liang Li,Shang-Yu Si,Lian Xue,Si Chen,Yong-Fang Liu,Ya-Jun Tong,Hai-Xiao Deng,Zhen-Tang Zhao

NUCLEAR SCIENCE AND TECHNIQUES(2023)

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摘要
The cavity-based X-ray free-electron laser (XFEL) has promise in producing fully coherent pulses with a bandwidth of a few meV and very stable intensity, whereas the currently existing self-amplified spontaneous emission (SASE) XFEL is capable of generating ultra-short pulses with chaotic spectra. In general, a cavity-based XFEL can provide a spectral brightness three orders of magnitude higher than that of the SASE mode, thereby opening a new door for cutting-edge scientific research. With the development of superconducting MHz repetition-rate XFEL facilities such as FLASH, European-XFEL, LCLS-II, and SHINE, practical cavity-based XFEL operations are becoming increasingly achievable. In this study, megahertz cavity enhanced X-ray generation (MING) is proposed based on China’s first hard XFEL facility - SHINE, which we refer to as MING@SHINE.
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关键词
X-ray free-electron laser,Free electron laser oscillator,Fully coherent X-ray
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