光谱学与光谱分析
光譜學與光譜分析
광보학여광보분석
SPECTROSCOPY AND SPECTRAL ANALYSIS
2014年
2期
557-561
,共5页
张继超%梁东旭%何燕%李爱国%余笑寒
張繼超%樑東旭%何燕%李愛國%餘笑寒
장계초%량동욱%하연%리애국%여소한
硬X射线微探针%高精度样品定位%坐标转换
硬X射線微探針%高精度樣品定位%坐標轉換
경X사선미탐침%고정도양품정위%좌표전환
Hard X-ray microprobe%High accuracy sample positioning%Coordinate transformation
介绍了上海光源硬X射线微聚焦光束线站(BL15U1)的高精度样品定位系统。该系统由离线样品显微镜系统、在线样品实验系统和高精度定位样品架三部分组成。通过编译控制程序、样品架定位、坐标转换,将样品的在线X射线荧光成像实验和离线显微镜观察进行有效结合,首次在国内同步辐射装置上实现样品在微米范围内的快速离线定位。该系统帮助科研工作者在利用微束X射线研究物质微区特征时,快速准确地寻找微区研究对象。利用金网进行X射线荧光成像实验,对比离线高倍显微镜下金网各结点的坐标,对样品定位系统的精度进行验证。结果表明,该样品定位系统在 X方向的平均误差为1.3μm ,Z方向的平均误差为2.5μm。该系统不仅简便快速、准确可靠,节约宝贵的实验时间,也为同步辐射微聚焦线站开展样品自动对焦方法提供技术前提。
介紹瞭上海光源硬X射線微聚焦光束線站(BL15U1)的高精度樣品定位繫統。該繫統由離線樣品顯微鏡繫統、在線樣品實驗繫統和高精度定位樣品架三部分組成。通過編譯控製程序、樣品架定位、坐標轉換,將樣品的在線X射線熒光成像實驗和離線顯微鏡觀察進行有效結閤,首次在國內同步輻射裝置上實現樣品在微米範圍內的快速離線定位。該繫統幫助科研工作者在利用微束X射線研究物質微區特徵時,快速準確地尋找微區研究對象。利用金網進行X射線熒光成像實驗,對比離線高倍顯微鏡下金網各結點的坐標,對樣品定位繫統的精度進行驗證。結果錶明,該樣品定位繫統在 X方嚮的平均誤差為1.3μm ,Z方嚮的平均誤差為2.5μm。該繫統不僅簡便快速、準確可靠,節約寶貴的實驗時間,也為同步輻射微聚焦線站開展樣品自動對焦方法提供技術前提。
개소료상해광원경X사선미취초광속선참(BL15U1)적고정도양품정위계통。해계통유리선양품현미경계통、재선양품실험계통화고정도정위양품가삼부분조성。통과편역공제정서、양품가정위、좌표전환,장양품적재선X사선형광성상실험화리선현미경관찰진행유효결합,수차재국내동보복사장치상실현양품재미미범위내적쾌속리선정위。해계통방조과연공작자재이용미속X사선연구물질미구특정시,쾌속준학지심조미구연구대상。이용금망진행X사선형광성상실험,대비리선고배현미경하금망각결점적좌표,대양품정위계통적정도진행험증。결과표명,해양품정위계통재 X방향적평균오차위1.3μm ,Z방향적평균오차위2.5μm。해계통불부간편쾌속、준학가고,절약보귀적실험시간,야위동보복사미취초선참개전양품자동대초방법제공기술전제。
A novel sample offline positioning system was developed for hard X-ray micro-focus beamline (BL15U1) at Shanghai Synchrotron Radiation Facility (SSRF) .The positioning system is composed of three parts :off-line sample microscope system , on-line sample experiment system ,and high-precision positioning sample holder .It makes a potent combination of the on-line X-ray fluorescence imaging and the off-line microscopic examination in three steps :compiling of control program ,positioning of sample holder ,and conversion of the two coordinates .It’s the first time in the domestic synchrotron radiation facilities to achieve sample offline positioning in micron scale .The system helps the researchers find the object of study in micro zone quickly and accurately ,when they study the micro characteristics of materials using synchrotron radiation micro X-ray beam .The gold mesh was used as an object of study .By comparing the differences of coordinates of gold mesh nodes between pictures from off-line microscope and pictures from X-ray fluorescence mapping ,the accuracy of the offline positioning system was verified .The results showed that the average errors of X-axis and Z-axis were 1.3 and 2.5 μm respectively ,using the positioning method .It was demonstrated that the sample offline positioning system not only is suitable for these applications with high efficiency ,but also supply hard X-ray micro-focus beamline with the technical preparations of sample automatic focusing method .