Dynamic laboratory x-ray phase-contrast microtomography with structure-based prior regularisation.

IF 3.4 3区工程技术 Q1 ENGINEERING, MULTIDISCIPLINARY

Measurement Science and Technology Pub Date : 2025-09-30 Epub Date: 2025-09-11 DOI:10.1088/1361-6501/ae01c8

Harry Allan, Tom Partridge, Joseph Jacob, Marco Endrizzi

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引用次数: 0

Abstract

X-ray microtomography is a versatile tool allowing the measurement of the 3D structure of optically thick samples. As a non-destructive technique, it is readily adapted to 4D imaging, where a sample can be monitored over time, and especially in conjunction with the application of external stimuli. To apply this technique with the limited x-ray flux available at a conventional laboratory source, we leverage the contrast enhancement of free-space propagation phase-contrast imaging, achieving an increase in contrast-to-noise ratio (CNR) of 5.8x. Furthermore, we combine this with iterative reconstruction, using regularisation by a structure-based prior from a high-quality reference scan of the object. This combination of phase-contrast imaging and iterative reconstruction leads to a 29.2x improvement in CNR compared to the conventional reconstruction. This enables fully dynamic x-ray microtomography, with a temporal resolution of 9 s at a voxel size of 10.5 μm. We use this to measure the movement of a waterfront in the fine vessels of a wooden skewer, as a representative example of dynamic system evolving on the scale of tens of seconds.

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基于结构的先验正则化的动态实验室x射线相衬显微断层扫描。

x射线显微断层扫描是一种多功能工具，可以测量光学厚度样品的3D结构。作为一种非破坏性技术，它很容易适应于4D成像，其中样品可以随着时间的推移而被监测，特别是与外部刺激的应用相结合。为了将该技术应用于传统实验室源有限的x射线通量，我们利用自由空间传播相衬成像的对比度增强，实现了对比度噪声比（CNR）提高5.8倍。此外，我们将其与迭代重建相结合，使用基于结构的正则化，该正则化来自对象的高质量参考扫描。相对比成像和迭代重建的结合使CNR比传统重建提高了29.2倍。这使得完全动态的x射线微断层扫描成为可能，在10.5 μm的体素尺寸下具有9 s的时间分辨率。我们用它来测量一个滨水的运动在一个木串的精细容器，作为一个典型的动态系统在几十秒的尺度上演变的例子。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Measurement Science and Technology 工程技术-工程：综合

CiteScore

4.30

自引率

16.70%

发文量

656

审稿时长

4.9 months

期刊介绍： Measurement Science and Technology publishes articles on new measurement techniques and associated instrumentation. Papers that describe experiments must represent an advance in measurement science or measurement technique rather than the application of established experimental technique. Bearing in mind the multidisciplinary nature of the journal, authors must provide an introduction to their work that makes clear the novelty, significance, broader relevance of their work in a measurement context and relevance to the readership of Measurement Science and Technology. All submitted articles should contain consideration of the uncertainty, precision and/or accuracy of the measurements presented. Subject coverage includes the theory, practice and application of measurement in physics, chemistry, engineering and the environmental and life sciences from inception to commercial exploitation. Publications in the journal should emphasize the novelty of reported methods, characterize them and demonstrate their performance using examples or applications.