G. Lioliou, A. Charman, O. Roche i Morgó, M. Endrizzi, S. Arridge, D. Bate, A. Olivo, C. Hagen
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引用次数: 0
摘要
环形计算机断层扫描将横向样品平移和旋转结合在一起,是使用调幅光束的显微计算机断层扫描系统的一种完全兼容飞行扫描的采集方案。由于这种系统能实现 X 射线相位对比成像(XPCI)和孔径驱动的空间分辨率,因此越来越受欢迎。前者可为弱衰减样本提供卓越的对比度,后者则可提高微型计算机断层成像系统的分辨率,使其超越光源和探测器所决定的传统限制。这类系统最初需要耗时的步进式采集,而摆线计算机断层扫描技术的发展消除了这一限制。在这里,我们推导出了从奈奎斯特-香农定理意义上来说最优的摆线取样条件。有了这些条件,就能以省时省力的方式获取采样良好(即高分辨率)的 XPCI 图像,这是人们长期以来一直追求的结果,与实验室实施和同步加速器实施都息息相关,前者的扫描时间历来较长,而后者的下一个前沿则是实现高速(如动态)成像。我们对所使用的 X 射线源类型不做任何假设,但演示了旋转阳极 X 射线管的最佳条件。
Cycloidal computed tomography, by which a lateral sample translation and rotation are combined, is a fully-fly-scan-compatible acquisition scheme for micro-computed-tomography systems using amplitude-modulated beams. Such systems have gained popularity, as they enable x-ray phase-contrast imaging (XPCI) and aperture-driven spatial resolution. The former provides superior contrast for weakly attenuating samples, while the latter allows the resolution of a micro-computed-tomography system to be increased beyond the conventional limit dictated by the source and detector. Such systems initially required time-inefficient step-and-shoot acquisitions, a limitation that has been removed by the development of cycloidal computed tomography. Here we derive cycloidal sampling conditions that are optimal in the sense of the Nyquist-Shannon theorem. Their availability enables the acquisition of well-sampled (i.e., high-resolution) XPCI images in a time-efficient manner, a long-sought outcome with relevance to laboratory implementations, where scan times have traditionally been long, and to synchrotron implementations, where the next frontier is to achieve high-speed (e.g., dynamic) imaging. We make no assumptions on the type of x-ray source used, but demonstrate the optimal conditions with a rotating-anode x-ray tube.
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