采用编码孔径的单距离纳米体层成像技术

arXiv - PHYS - Optics Pub Date : 2024-09-08 DOI:arxiv-2409.05163

Viktor Nikitin, Marcus Carlsson, Rajmund Mokso, Peter Cloetens, Doga Gursoy

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引用次数: 0

摘要

使用纳米体层成像技术进行高分辨率相位对比三维成像，通常需要在不同的样本到探测器距离（通常为 3 到 4 倍）上采集多张断层图像。这种多距离方法极大地限制了时间分辨率，使其无法用于手术研究。此外，移动样本会使重建复杂化，需要精确的对齐和插值来校正探测器上与移动相关的放大率。为此，我们提出并通过模拟验证了一种新颖的单距离方法，该方法利用编码光圈在样品旋转时构建光束照明。我们提出的联合重建方案使这种方法成为可能，该方案将编码相位检索与三维层析成像集成在一起。该方案确保了数据的一致性，并实现了从单一距离进行伪影重建。

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Single-distance nano-holotomography with coded apertures

High-resolution phase-contrast 3D imaging using nano-holotomography typically requires collecting multiple tomograms at varying sample-to-detector distances, usually 3 to 4. This multi-distance approach significantly limits temporal resolution, making it impractical for operando studies. Moreover, shifting the sample complicates reconstruction, requiring precise alignment and interpolation to correct for shift-dependent magnification on the detector. In response, we propose and validate through simulations a novel single-distance approach that leverages coded apertures to structure beam illumination while the sample rotates. This approach is made possible by our proposed joint reconstruction scheme, which integrates coded phase retrieval with 3D tomography. This scheme ensures data consistency and achieves artifact-free reconstructions from a single distance.

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arXiv - PHYS - Optics

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