期刊
JOURNAL OF SYNCHROTRON RADIATION
卷 29, 期 -, 页码 787-793出版社
INT UNION CRYSTALLOGRAPHY
DOI: 10.1107/S1600577522001412
关键词
analyzer-based imaging; X-ray Bragg magnifier; computed tomography
A zoom function is proposed for an X-ray analyzer-based optics that allows observation of samples with different types of contrast. Asymmetrically cut crystals were used to implement the zoom function, and proof-of-principle experiments showed that the image quality at higher magnification was superior. This achievement has the potential to advance research in various fields such as materials science and biomedical science.
An X-ray analyzer-based optics with a zoom function is proposed for observing various samples with apparent-absorption contrast, phase contrast and scattering contrast. The proposed X-ray optics consists of a collimator crystal and an analyzer crystal arranged in a nondispersive (+, -) geometry with a sample placed between them. For the implementation of the zoom function, an asymmetrically cut crystal in the rotated-inclined geometry was used for the analyzer. Proof-of-principle experiments were performed at the vertical wiggler beamline BL-14B of the Photon Factory. First, the magnification was set to 1x, and then it was zoomed into the optimal magnification (10x). At these magnifications, tri-modal contrast cross-sectional images of a sample were obtained by computed tomography. It was confirmed that the image quality at 10x was superior to that at 1x. This achievement opens up new possibilities for observing an entire sample or regions of interest within a sample at optimal magnification, and is expected to be useful for materials science, condensed matter physics, archeology and biomedical science.
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