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FEL-I Hard X-ray End-stations
FEL-I is responsible for the construction of two experimental endstations, namely, hard X-ray high resolution resonance scattering experimental endstation (HSS) and single molecule/single particle coherent diffraction experimental endstation (CDS). These two experimental endstations are built on the FEL-I beamline, with an energy range of 3-15 keV, and have the characteristics of high repetition rate, high brightness, ultra short pulse and full coherence.
FEL-III Hard X-ray End-stations
(SHINE) No. 3 undulator (FEL-III) emits X-rays with energy range of 10-25 keV and corresponding wavelength of 0.1-0.05 nm. FEL-III use the following characteristics of hard X-ray free electron laser: (1) super peak brightness, (2) ultra-short pulse, (3) coherence, (4) SASE mode spectrum, and (5) atomic scale wavelength to establish single pulse X-ray diffraction, X-ray scattering and X-ray spectroscopy methodologies . The light beam shines on three experimental stations built in series: the hard
General Experiment Technology Team
The General Experiment Technology Team is responsible for the research, development and engineering implementation of key general technologies of SHINE beam line endstation. It has five systems, including detector system, data acquisition and analysis system, high-performance data management system, and laser auxiliary system. A 15 person research and development team has been established, including one researcher, one senior engineer, and four associate researchers, It has undertaken the resear
Beamline Engineering Division
Beamline Engineering Division is responsible for the beamline implementation and key instruments developments. The division has 43 members in 6 groups as utility system, engineering analysis system, mechanical system, vacuum system, control system, alignment and measurement system. Their tasks are for the utility system construction, thermal and structure analysis, vibration measurement and analysis, beamline layout design and instruments installation; control and interlock system design and imp
Beamline Technique Division
The beamline is the bridge of the FEL source and endstation. The aim of the beamline is to transport the ultra-short, ultra-bright, and fully coherent FEL to the endstations, to fulfill the requirements of scientific experiments. The departments task of beamline and endstation techniques is to design, construct and commission the beamline, including physical design, preliminary design of three beamlines, and technical design of all the optics, diagnostics, and the commissioning of beamlines. The
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