X-ray Angle-Resolved Computed Tomography Using an Asymmetric Analyzer Crystal
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概要
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Because X-ray angle-resolved computed tomography is sensitive to the X-ray phase gradients produced by a sample, it has much higher sensitivity than the conventional techniques based on the absorption contrast. To improve this technique, we introduced an asymmetrically cut crystal for the analyzer, which functions as either a magnifier or demagnifier. For image magnification at a wavelength of 0.0766 nm, we utilized an asymmetric Si(220) crystal ($\theta_{\text{B}}=11.5$°), the diffraction plane of which was inclined by 8° from the crystal surface. The magnification ratio, $m$, was 5.47 and improvement of spatial resolution was successfully observed. In the image demagnification experiment, another asymmetric Si(220) crystal ($m=0.49$) was used, and cross-sectional images were successfully reconstructed for a sample larger than the viewing field of the X-ray charge coupled device (CCD) image sensor. The asymmetric analyzer opens up new ways, for example, to improve the spatial resolution of pixel array detectors (PADs) for high-sensitivity and high-resolution phase-contrast X-ray imaging.
- 2011-02-25
著者
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HIRANO Keiichi
Institute of Material Structure Science, KEK-PF, High Energy Accelerator Research Organization
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Hirano Keiichi
Institute of Materials Structure Science, High Energy Accelerator Research Organization, Tsukuba, Ibaraki 305-0801, Japan
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