Jonghyeok Lee, Hyunwoo Lim, Hunwoo Lee, Duhee Jeon, Hyosung Cho
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引用次数: 0
Abstract
Single grid-based dark-field X-ray imaging (SG-DFXI) is a single-exposure, non-interferometric technique used to obtain dark-field images using a microfocus X-ray source and a common X-ray grid. It requires minimal exposure and minimal system setup for potential medical and industrial applications. However, dark-field images are often distorted by the image artifacts caused by spectral overlap of adjacent harmonic peaks in the Fourier spectrum when an X-ray grid is used. This can degrade the SG-DFXI quality. In this study, we designed a new type of rectangular window function that was applied asymmetrically to the first-order harmonic peak to extract its corresponding harmonic image, avoiding spectral-overlap artifacts and improving image resolution. An experiment was conducted on test samples of a cookie (attached to a piece of wooden chopstick) and a resolution pattern using a tabletop setup to demonstrate the efficacy of the proposed asymmetric window function. Our experimental results indicate that the asymmetric window function effectively eliminated spectral-overlap artifacts and improved the spatial resolution of dark-field images. The contrast-to-noise ratio of the dark-field image obtained using the asymmetric window function with a partial Fourier factor of PF = 0.55 was approximately 12.0, which represents a 4.3-fold improvement over the image using the symmetric window function, demonstrating the efficacy of the proposed window function.
基于单网格的暗场 X 射线成像(SG-DFXI)是一种单次曝光、非干涉测量技术,用于使用微聚焦 X 射线源和普通 X 射线网格获取暗场图像。它只需最少的曝光和最少的系统设置,具有潜在的医疗和工业应用价值。然而,在使用 X 射线栅格时,傅立叶频谱中相邻谐波峰的光谱重叠会导致暗视野图像失真。这会降低 SG-DFXI 的质量。在本研究中,我们设计了一种新型矩形窗函数,该函数不对称地应用于一阶谐波峰,以提取其相应的谐波图像,从而避免了光谱重叠伪影,提高了图像分辨率。为了证明所提出的非对称窗口函数的有效性,我们使用桌面装置对饼干(附在一根木筷子上)和分辨率图案的测试样本进行了实验。实验结果表明,非对称窗口函数有效消除了光谱重叠伪影,提高了暗视野图像的空间分辨率。使用部分傅里叶因子为 PF = 0.55 的非对称窗函数获得的暗视野图像的对比噪声比约为 12.0,比使用对称窗函数的图像提高了 4.3 倍,这证明了所提出的窗函数的功效。
期刊介绍:
Section A of Nuclear Instruments and Methods in Physics Research publishes papers on design, manufacturing and performance of scientific instruments with an emphasis on large scale facilities. This includes the development of particle accelerators, ion sources, beam transport systems and target arrangements as well as the use of secondary phenomena such as synchrotron radiation and free electron lasers. It also includes all types of instrumentation for the detection and spectrometry of radiations from high energy processes and nuclear decays, as well as instrumentation for experiments at nuclear reactors. Specialized electronics for nuclear and other types of spectrometry as well as computerization of measurements and control systems in this area also find their place in the A section.
Theoretical as well as experimental papers are accepted.