双棱镜x射线干涉法暗场散射张量层析成像。

Grant T Gullberg, Michael Fuller, Uttam Shrestha, Youngho Seo
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引用次数: 0

摘要

基于x射线光栅的差相衬成像能够获得良好的软组织相位、衰减和小角散射对比度。在这项工作中,我们模拟了一个x射线干涉仪的性能,其中相位光栅被一个菲涅耳微双棱镜取代。我们的目标是开发基于双棱镜干涉测量的成像系统,提高多色性能。在我们的研究中,我们得到了双棱镜辐照度分布的解析表达式。在辐照度分布中,条纹可见性的局部区域是非周期性的。继Pfeiffer等人的工作之后,我们开发了一种重建散射方向的方法,该方法可用于获得三维张量场。这将最终用于改进的基于双棱镜的差相对比成像,通过张量层析成像数据的数学重建获得组织特性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Tensor Tomography of Dark Field Scatter using X-ray Interferometry with Bi-prisms.

Tensor Tomography of Dark Field Scatter using X-ray Interferometry with Bi-prisms.

Tensor Tomography of Dark Field Scatter using X-ray Interferometry with Bi-prisms.

Tensor Tomography of Dark Field Scatter using X-ray Interferometry with Bi-prisms.

X-ray grating-based differential phase-contrast imaging is able to obtain excellent soft-tissue contrast of phase, attenuation, and small angle scatter. In this work we model the performance of an X-ray interferometer wherein the phase gratings are replaced with a single Fresnel micro-bi-prism. Our goal is to develop imaging systems based on bi-prism interferometry with improved polychromatic performance. In our investigation we obtain an analytical expression for the irradiance distribution of the bi-prism. The localized regions of fringe visibility within the irradiance distribution are non-periodic. Following the work of Pfeiffer et al., we then develop a method for reconstructing scattering directions that can be used to obtain a three-dimensional tensor field. This will eventually be used in modified bi-prism-based differential phase-contrast imaging to obtain tissue properties through mathematical reconstruction of tensor tomographic data.

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