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X-ray fluorescence microtomography and polycapillary based confocal imaging using synchrotron radiation

机译：X射线荧光显微断层照相术和使用同步加速器辐射的多毛细管共聚焦成像

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This work illustrates the development of X-ray fluorescence tomography and polycapillary based confocal imaging towards a three-dimensional (3D), quantitative analytical method with lateral resolution levels down to the 2-20 μm scale. Detailed analytical characterization is given for polycapillary based confocal XRF imaging, which is a new variant of the 3D micro-XRF technique. Applications for 2D/3D micro-XRF are illustrated for the analysis of biological (zooplankton) and geological samples (microscopic inclusions in natural diamonds and fluid inclusions in quartz). Based on confocal imaging, fully three-dimensional distributions of trace elements could be obtained, representing a significant generalization of the regular 2D scanning technique for micro-XRF spectroscopy. The experimental work described in this paper has been carried out at the ESRF ID18F microfluorescence end-station and at HASYLAB Beam Line L.

机译：这项工作说明了X射线荧光层析成像技术和基于多毛细管的共聚焦成像技术向三维（3D）定量分析方法的发展，其横向分辨率水平低至2-20μm。详细介绍了基于多毛细管共聚焦XRF成像的分析特性，这是3D微型XRF技术的新变体。举例说明了2D / 3D微型XRF在生物学（浮游生物）和地质样品（天然钻石中的微观夹杂物和石英中的流体夹杂物）分析中的应用。基于共聚焦成像，可以获得痕量元素的完整三维分布，这代表了常规XD光谱二维扫描技术的重大推广。本文所述的实验工作已在ESRF ID18F微荧光终端站和HASYLAB Beam Line L上进行。

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《Developments in X-Ray Tomography IV》|2004年|P.220-231|共12页
会议地点 DenverCO(US)
作者
Laszlo Vincze; Bart Vekemans; Imre Szaloki; Frank E. Brenker; Gerald Falkenberg; Karen Rickers; Katrien Aerts; Rene Van Grieken; Freddy Adams;
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MiTAC, University of Antwerp, Universiteitsplein 1, B-2610 Wilrijk, Belgium;

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原文格式 PDF
正文语种 eng
中图分类 X射线、紫外线、红外线;
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1. Polycapillary Optics Based Confocal Micro X-ray Fluorescence and X-ray Absorption Spectroscopy Setup at The European Synchrotron Radiation Facility Collaborative Research Group Dutch-Belgian Beamline, BM26A [J] . Bauters Stephen, Tack Pieter, Rudloff-Grund Jennifer Helen, Analytical chemistry . 2018,第3期

机译：基于聚咖啡图的基于聚焦微X射线荧光和X射线吸收光谱设施在欧洲同步辐射设施协作研究组Dutch-Belgian Beamline，BM26A
2. X-ray fluorescence microtomography based on polycapillary-focused X-rays from laboratory source [J] . Bing-Gang Feng, Biao Deng, Ti-Qiao Xiao, 核技术（英文版） . 2018,第006期

机译：基于实验室来源的多毛细管聚焦X射线的X射线荧光显微照片
3. FPM model calculation for micro X-ray fluorescence confocal imaging using synchrotron radiation [J] . I. Szaloki, A. Gerenyi, G. Radocz, Journal of Analytical Atomic Spectrometry . 2017,第2期

机译：使用同步加速器辐射进行微X射线荧光共聚焦成像的FPM模型计算
4. X-ray fluorescence microtomography and polycapillary based confocal imaging using synchrotron radiation [C] . Laszlo Vincze, Bart Vekemans, Imre Szaloki, Conference on Advances in Developments in X-Ray Tomography . 2004

机译：X射线荧光显微映射和使用同步辐射的多毛细管基于聚谱成像
5. Underpainting Recovery using Synchrotron-based X-ray Fluorescence Imaging Data. [D] . Anitha, Anila. 2010

机译：使用基于同步加速器的X射线荧光成像数据进行底涂恢复。
6. Synchrotron radiation micro X-ray fluorescence spectroscopy of thin structures in bone samples: comparison of confocal and color X-ray camera setups [O] . M. Rauwolf, A. Turyanskaya, A. Roschger, -1

机译：骨骼样品中薄结构的同步辐射微X射线荧光光谱：共焦和彩色X射线照相机设置的比较
7. Polycapillary Optics Based Confocal Micro Xray Fluorescence and Xray Absorption Spectroscopy Setup at The European Synchrotron Radiation Facility Collaborative Research Group DutchBelgian Beamline, BM26A [O] . -1

机译：基于聚咖啡图光光学的共焦微X射线荧光和X射线吸收光谱设置在欧洲同步辐射设施协作研究组Dutchbelgian Beamline，BM26A

X-ray fluorescence microtomography and polycapillary based confocal imaging using synchrotron radiation

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