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作 者:Shuai Wu Yun-fei Sun Yong-jun Li Wan-qian Zhu Song Xue Li-min Jin
机构地区:[1]Shanghai Synchrotron Radiation Facility,Shanghai Advanced Research Institute,Chinese Academy of Sciences,Shanghai,201204,China [2]Shanghai Institute of Applied Physics,Chinese Academy of Sciences,Shanghai,201800,China [3]University of Chinese Academy of Sciences,Beijing,100049,China [4]Wuhan University,Wuhan,430072,China
出 处:《Radiation Detection Technology and Methods》2024年第3期1422-1429,共8页辐射探测技术与方法(英文)
基 金:supported by National Natural Science Foundation of China(No.11805262);Youth Innovation Promotion Association,Chinese Academy of Sciences(No.2020288).
摘 要:Background The peak power density of the hard X-ray nano-probe beamline is the highest at SSRF(Shanghai Synchrotron Radiation Facility).The peak power density of the front-end is 77.43 kW/mrad^(2),which is about 1.7 times higher than the others,for the fixed mask 1(FM1)which is 11,440 mm away from the light source.However,adopting the traditional design may cause the major power absorbed by the downstream fixed mask 2(FM2).Purpose In order to evenly absorb the heat and ensure smooth beam transmission.Methods The synchrotron beam tracing was performed,and the separate mask absorption approach was adopted.Additionally,finite element analysis(FEA)was conducted to analyze the thermodynamic behavior of FMs.Result Currently,the front-end has been successfully designed and is running smoothly.
关 键 词:Synchrotron radiation Front-end-High-power density Structural design Finite element analysis(FEA)
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