基于近边吸收谱理论的X射线全场显微成像方法研究

项目名称： 基于近边吸收谱理论的X射线全场显微成像方法研究

项目编号： No.11205189

项目类型： 青年科学基金项目

立项/批准年度： 2013

项目学科： 物理学II

项目作者： 张凯

作者单位： 中国科学院高能物理研究所

项目金额： 30万元

中文摘要： 把样品的结构信息、元素信息和谱学信息结合起来，研究物质结构、功能和性质之间的相互关系，是材料科学、生命科学发展的迫切需求。然而，现有的纳米分辨X射线显微术只能分别获得单一、有限的三维结构信息或谱学信息，难以实现多源信息的同时获得和无缝融合。本项目拟将X射线全场显微术的三维成像技术和谱学技术结合起来，以北京同步辐射纳米分辨X射线全场显微成像设备为基础，深入研究X射线显微成像理论，构建单色器、波带片和探测器的联动机构，发展和建立多元素信息分离算法和准确高效的图像配准算法，最终实现样品的三维元素信息、谱学信息和三维结构信息的同时获得。该项目的开展将创新性的建立一套具有自主知识产权的基于近边吸收谱理论的X射线显微成像技术和实验平台，为材料科学、生命科学的发展提供更有利的研究手段，具有重要的科学意义和广泛的应用前景。

中文关键词： 同步辐射；X射线显微术；近边吸收谱；；

英文摘要： In the next future significant advancements in materials science and life sciences will be possible only performing researches able to return information about the relationship between materials structure, function and nature. As a consequence, the combination of structural information, elemental data and spectroscopic characterization within the same experimental setup is an urgent demand for many scientific and technological researches. At present, available X-ray microscopes may only provide independently or absorption based spectroscopic information or three-dimensional structure information at the best, at the nanometer resolution. In fact,it is almost impossible collecting multi-sources information simultaneously, a condition that significantly limits x-ray microscopy applications in many research areas and applications.This project intends combining three-dimensional imaging techniques allowed by a full field X-ray microscope with spectroscopy techniques. The proposal is based on the Beijing Synchrotron Radiation full field X-ray imaging microscope setup with the main goal to make possible the simultaneous operation of monochromator, zoneplates and detectors using the original imaging theoretical framework developed in our institute. We intend to setup an original instrument that working at different magn

英文关键词： synchrotron Radiation；X-ray microscopy；XANES；；