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相衬成像方法利用硬X射线对低密度弱吸收物质成像,可获得高衬度图像。用菲涅尔衍射理论分析了X射线图像的形成机理。在频域中根据光学传递函数,对物像距离、样品空间频率等对图像相位衬度的影响进行了分析。分辨率和衬度是决定图像可见度的两个依据,分辨率主要依赖于光源的空间相干性,空间相干性又决定于源点尺寸,而时间相干性(单色性)是一个不重要的影响因子。利用多色微焦点源实现了X射线相衬成像技术,获得了有价值的相衬图像,如低原子序数低密度泡沫材料的硬X射线相衬图像,与吸收衬度成像相比,其图像质量得到了很大提高,能观察到泡沫材料的细微结构,分辨率可达μm量级。 相似文献
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在临床实际应用中,X射线源是一个具有有限尺寸的多色光源.基于Fresnel-Kirchhoff衍射理论,考虑空间相干的影响,新的类同轴X射线相衬成像公式被导出.分别代表吸收效应与相位效应的吸收衬度传递函数和相位衬度传递函数从新公式得到.吸收衬度传递函数和相位衬度传递函数的曲线由Matlab给出,不同源半径的最佳成像位置也被计算.理论分析结果如下:1)当光源半径足够大时空间相干效应须被考虑,减小源半径可以增强相位效应|2)源半径与最佳成像位置间有确定关系,并在本文中给出|3)源尺寸效应对相位效应影响不是无限的|4)减小入射X射线光子能量将会显著增强相位效应,但不会对最佳成像位置有影响,因此,上述结论可以被拓展到多色光情况.为了验证理论结果,本文给出了对一个表面破损的光学玻璃微聚焦相衬成像的实验结果.其中一些实验结果与理论分析符合很好,但也有一些实验未达到预期,相关的解释文中也已给出. 相似文献
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常规X射线成象技术是建立在吸收衬度和几何光学基础上.介绍了“in-line”位相衬度成象 技术和成象理论.以生物样品为例,说明常规X射线吸收衬底成象与位相衬度成象的差别,并 对X射线源尺寸对成象衬度的影响进行了研究.此外,对吸收衬底象和位相衬度象的关键参量 进行了计算模拟和讨论.
关键词:
位相衬度
成象
硬X射线 相似文献
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《中国光学与应用光学文摘》2005,(3)
O434.12 2005032159 微聚焦管硬X射线位相衬底成像=Phase-contrast imaging with microfocus X-ray source[刊,中]/陈敏(中科院上海应 用物理所.上海(201800)),肖体乔…∥物理学报.-2004, 53(9).-2953-2957 利用微聚焦管硬X射线光源(光源最小聚焦尺寸约 0.5μm),采用同轴位相衬度成像方法,对新鲜的未经任何 处理的生物样品进行高分辨率的成像,清晰地获得了样品 相似文献
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随着惯性约束核聚变(ICF)研究的逐步深入,尤其是氘氚(DT)燃料层球壳梯度掺杂的广泛应用,对轻物质界面的诊断需求日益增长.在北京同步辐射形貌成像站的微米CT机上利用类同轴相衬成像方法获取了三层球壳靶丸的相衬图像,最佳空间分辨率达到了2μupm,衬度达到12%;通过分析边缘增强函数和衬度传递函数之间的关系,总结出一套完整的类同轴相衬成像方法,同时将相衬成像结果与吸收成像结果对比.实验结果表明,X射线相衬成像在轻物质界面的分辨中具有明显的优势,能够广泛应用于ICF研究、医学断层扫描CT装置和生物结构等前沿科学领域. 相似文献
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Rhiannon P. Murrie Andrew W. Stevenson Kaye S. Morgan Andreas Fouras David M. Paganin Karen K. W. Siu 《Journal of synchrotron radiation》2014,21(2):430-445
Propagation‐based phase‐contrast X‐ray imaging (PB‐PCXI) using synchrotron radiation has achieved high‐resolution imaging of the lungs of small animals both in real time and in vivo. Current studies are applying such imaging techniques to lung disease models to aid in diagnosis and treatment development. At the Australian Synchrotron, the Imaging and Medical beamline (IMBL) is well equipped for PB‐PCXI, combining high flux and coherence with a beam size sufficient to image large animals, such as sheep, due to a wiggler source and source‐to‐sample distances of over 137 m. This study aimed to measure the capabilities of PB‐PCXI on IMBL for imaging small animal lungs to study lung disease. The feasibility of combining this technique with computed tomography for three‐dimensional imaging and X‐ray velocimetry for studies of airflow and non‐invasive lung function testing was also investigated. Detailed analysis of the role of the effective source size and sample‐to‐detector distance on lung image contrast was undertaken as well as phase retrieval for sample volume analysis. Results showed that PB‐PCXI of lung phantoms and mouse lungs produced high‐contrast images, with successful computed tomography and velocimetry also being carried out, suggesting that live animal lung imaging will also be feasible at the IMBL. 相似文献
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针对大尺度物体的keV-X射线高分辨成像,分析了相位型菲涅耳波带板(FPZP)对物平面1mm区域内点源的成像,确定像的空间分布具有不变性,提出了一种FPZP对扩展光源成像的计算方法.使用这一方法,模拟了放大倍数为10的典型实验条件下最外环宽0.35 μm的FPZ对扩展单色光源的成像.结果表明,随着扩展光源尺度的增加,像的对比度降低.FPZP的负1级和0级衍射是导致像的背景增强和对比度降低的主要因素,并相应导致成像对物方的空间分辨能力下降.对于强度空间分布为正弦调制、对比度为1的1mm尺度方形光源,像的对比度低于0.4,物方分辨能力为0.75 μm. 相似文献
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通过解析分析和数值模拟,比较了钛K线(4.5 keV)与铜K线(8.0 keV)等X射线源背光透视物体情况下,菲涅耳波带板直接成像与投影式相衬成像对被透视物体的空间分辨能力。结果表明,波带板成像可实现优于1 m的高空间分辨能力,而且使用较大尺度背光源更有利于成像。对于高透射或弱吸收的透视物体,波带板难以成像,可采用投影式相衬成像实现m级空间分辨。计入了以前文献没有考虑到的更高阶影响后,解析给出了点光源照射下相衬像的强度分布与对比度。模拟了微焦点X射线源照射存在厚度起伏的薄膜靶以及密度空间调制靶的相衬成像,点光源情况下模拟结果和解析结果相符。讨论了光源大小、成像距离等参数对相衬成像对比度和空间分辨能力的影响,结果表明,通过减小光源尺度和调节物体到探测面的距离,空间分辨能力可优化到1~4 m。 相似文献
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Influence of tube voltage and current on in-line phase contrast imaging using a microfocus x-ray source 下载免费PDF全文
In-line x-ray phase contrast imaging has attracted much attention due to two major advantages: its effectiveness in imaging weakly absorbing materials, and the simplicity of its facilities. In this paper a comprehensive theory based on Wigner distribution developed by Wu and Liu [Med. Phys. 31 2378-2384 (2004)] is reviewed. The influence of x-ray source and detector on the image is discussed. Experiments using a microfocus x-ray source and a CCD detector are conducted, which show the role of two key factors on imaging: the tube voltage and tube current. High tube current and moderate tube voltage are suggested for imaging. 相似文献
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为对微聚焦X射线相衬成像技术应用于双层以及多层塑料靶丸成像和特征分析进行可行性研究,基于类同轴X射线成像技术,综合考虑成像放大倍数、分辨率和衬度等因素,选择合适的实验参数,成功获得了较为清晰的双层塑料靶丸X射线相衬成像照片;采用数字图像处理技术的图像分割手段,如拉普拉斯高斯边缘检测法等对所成像中靶丸边界特征进行分析处理,获得了双层靶丸内层厚度为(10.5±0.6) μm,外层厚度为(9.2±0.7) μm,靶丸外径为(273.3±1.0) μm等参数。 相似文献
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内爆压缩过程中多层球壳靶丸变化规律的研究是惯性约束聚变的核心内容. 利用相衬成像技术可以提高低Z材料分界面成像衬度的特点在神光Ⅱ大型激光装置上开展了相关研究. 实验通过激光打Ti靶和针孔点背光的方式产生4.75 keV的X射线微点源, 针对内爆压缩过程中的靶丸样品投影成像获得了清晰的多层球壳靶丸图像, 空间分辨率优于10 μm.同时利用一维流体力学数值模拟程序分析了球壳运动的过程, 实验结果与数值模拟结果符合较好.表明了X射线相衬成像技术在高能量密度物理环境下仍然能够提高低Z材料分界面的衬度,获得高质量的物理图像,能够广泛应用于可控聚变能源、 天体物理等前沿科学领域. 相似文献
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Design,development and first experiments on the X‐ray imaging beamline at Indus‐2 synchrotron source RRCAT,India 下载免费PDF全文
A. K. Agrawal B. Singh Y. S. Kashyap M. Shukla P. S. Sarkar Amar Sinha 《Journal of synchrotron radiation》2015,22(6):1531-1539
A full‐field hard X‐ray imaging beamline (BL‐4) was designed, developed, installed and commissioned recently at the Indus‐2 synchrotron radiation source at RRCAT, Indore, India. The bending‐magnet beamline is operated in monochromatic and white beam mode. A variety of imaging techniques are implemented such as high‐resolution radiography, propagation‐ and analyzer‐based phase contrast imaging, real‐time imaging, absorption and phase contrast tomography etc. First experiments on propagation‐based phase contrast imaging and micro‐tomography are reported. 相似文献
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Poonamlata S. Yadav Y. S. Kashyap Tushar Roy P. S. Sarkar A. Sinha 《Journal of synchrotron radiation》2008,15(1):100-105
Phase‐contrast imaging provides enhanced image contrast and is important for non‐destructive evaluation of structural materials. In this paper, experimental results on in‐line phase‐contrast imaging using a synchrotron source (ELETTRA, Italy) for objects required in material science applications are discussed. Experiments have been carried out on two types of samples, pyrocarbon‐coated zirconia and pyrocarbon‐coated alumina microspheres. These have applications in both reactor and industrial fields. The phase‐contrast imaging technique is found to be very useful in visualizing and determining the coating thickness of pyrocarbon on zirconia and alumina microspheres. The experiments were carried out at X‐ray energies of 16, 18 and 20 keV and different object‐to‐detector distances. The results describe the contrast values and signal‐to‐noise ratio for both samples. A comprehensive study was carried out to determine the thickness of the pyrocarbon coating on zirconia and alumina microspheres of diameter 500 µm. The advantages of phase‐contrast images are discussed in terms of contrast and resolution, and a comparison is made with absorption images. The results show considerable improvement in contrast with phase‐contrast imaging as compared with absorption radiography. 相似文献