Grammatiki Lioliou , Oriol Roche i Morgó , Alberto Astolfo , Amir Reza Zekavat , Marco Endrizzi , David Bate , Silvia Cipiccia , Alessandro Olivo , Charlotte Hagen
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引用次数: 0
Abstract
Beam tracking and edge illumination are phase contrast imaging techniques that rely on amplitude modulated x-ray beams to generate sensitivity to refraction and scattering. While each technique has its advantage (“single shot” three-contrast imaging in beam tracking; the ability to work with relatively large pixels in edge illumination), they also share a common drawback, namely that the modulator shields parts of the sample and, thus, prevents those areas from contributing to the image (under-sampling). Sample stepping, by which frames are acquired with the sample in a different position relative to the modulator (sometimes referred to as “dithering”) can produce well-sampled images. However, in computed tomography (CT), stepping must be performed at each rotation angle, enforcing step-and-shoot acquisitions and leading to long scan times. To enable faster acquisitions, fly scan compatible scanning schemes based on “roto-translating” the sample in the modulated x-ray beam were recently developed. This article reviews these schemes and provides practical guidance for their implementation.
光束跟踪和边缘照明都是相衬成像技术,依靠调幅 X 射线光束产生对折射和散射的敏感性。虽然每种技术都有自己的优势(光束跟踪技术中的 "单次 "三对比成像;边缘照明技术中使用相对较大像素的能力),但它们也有一个共同的缺点,即调制器会遮挡样品的部分区域,从而使这些区域无法生成图像(采样不足)。通过样本步进(样本相对于调制器处于不同位置时获取帧)(有时称为 "抖动")可以生成取样良好的图像。然而,在计算机断层扫描(CT)中,每个旋转角度都必须进行步进,这就强制了步进和拍摄采集,导致扫描时间过长。为了加快采集速度,最近开发出了基于在调制 X 射线束中 "旋转 "样本的飞扫兼容扫描方案。本文回顾了这些方案,并为其实施提供了实际指导。
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