基于弯曲金刚石晶体的用于高重复频率自由电子激光应用的X射线光谱仪。
X-ray spectrometer based on a bent diamond crystal for high repetition rate free-electron laser applications.
作者信息
Boesenberg Ulrike, Samoylova Liubov, Roth Thomas, Zhu Diling, Terentyev Sergey, Vannoni Maurizio, Feng Yiping, van Driel Tim Brandt, Song Sanghoon, Blank Vladimir, Sinn Harald, Robert Aymeric, Madsen Anders
出版信息
Opt Express. 2017 Feb 6;25(3):2852-2862. doi: 10.1364/OE.25.002852.
A precise spectral characterization of every single pulse is required in many x-ray free-electron laser (XFEL) experiments due to the fluctuating spectral content of self-amplified spontaneous emission (SASE) beams. Bent single-crystal spectrometers can provide sufficient spectral resolution to resolve the SASE spikes while also covering the full SASE bandwidth. To better withstand the high heat load induced by the 4.5 MHz repetition rate of pulses at the forthcoming European XFEL facility, a spectrometer based on single-crystal diamond has been developed. We report a direct comparison of the diamond spectrometer with its Si counterpart in experiments performed at the Linac Coherent Light Source.
在许多X射线自由电子激光(XFEL)实验中,由于自放大自发辐射(SASE)光束的光谱内容存在波动,因此需要对每一个脉冲进行精确的光谱表征。弯曲的单晶光谱仪能够提供足够的光谱分辨率来分辨SASE尖峰,同时还能覆盖整个SASE带宽。为了更好地承受即将建成的欧洲XFEL设施中4.5MHz脉冲重复率所产生的高热负荷,已经开发了一种基于单晶金刚石的光谱仪。我们报告了在直线加速器相干光源进行的实验中,金刚石光谱仪与其硅对应物的直接比较。
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