人工晶体学报2026,Vol.55Issue(2):211-216,6.DOI:10.16553/j.cnki.issn1000-985x.2025.0196
基于硅微通道的硫氧化钆X射线闪烁屏制备与性能研究
Preparation and Performance of Gadolinium Sulfoxide X-Ray Scintillation Screens Based on Silicon Microchannels
摘要
Abstract
Gadolinium oxysulfide(GOS)scintillation crystals occupy an irreplaceable position in fields such as non-destructive testing and industrial flaw detection,primarily due to their high responsiveness to high-energy X-rays.Commercially available GOS X-ray scintillation screens typically feature a bulk ceramic structure.However,their resolution is generally low(less than 5 lp/mm)due to the issue of lateral optical crosstalk.In this study,silicon microchannel arrays with periods of 6,10 and 25 μm were fabricated using processes including photolithography,inductively coupled plasma(ICP)etching,and photo-assisted electrochemical etching.Subsequently,GOS X-ray scintillation screens based on these silicon microchannels were successfully prepared via a filling method that combines ultraviolet adhesive and GOS powder.An X-ray testing system was constructed to measure the effect of tube voltage on the brightness of the scintillation screens.The edge spread function(ESF)of the edge images was fitted using MATLAB software to derive the modulation transfer function(MTF),and the spatial resolution of the scintillation screens was further calculated from the MTF.Experimental results indicate that the brightness of the scintillation screens increases with the increase in tube voltage.Specifically,scintillation screens with larger periods exhibit higher brightness,while those with smaller periods demonstrate higher resolution.The resolution values are 18.1,16.8,and 12.0 lp/mm for the screens with periods of 6,10,and 25 μmn,respectively.关键词
X射线闪烁屏/硫氧化钆/硅微通道/周期/亮度/分辨率Key words
X-ray scintillation screen/gadolinium sulfoxide/silicon microchannel/period/brightness/resolution分类
信息技术与安全科学引用本文复制引用
郭丁逸,王国政,柴羽佳,张广印,王蓟,杨继凯,郝子恒,罗洋..基于硅微通道的硫氧化钆X射线闪烁屏制备与性能研究[J].人工晶体学报,2026,55(2):211-216,6.基金项目
吉林省科技厅面上项目(20250102142JC) (20250102142JC)
