High‐throughput X‐ray total scattering measurement system at BL04B2 of SPring‐8.

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Bibliographic Details
Title: High‐throughput X‐ray total scattering measurement system at BL04B2 of SPring‐8.
Authors: Yamada, Hiroki1 (AUTHOR) h_yamada@spring8.or.jp, Shimono, Seiya1 (AUTHOR), Kawaguchi, Shogo1 (AUTHOR), Ohara, Koji1,2 (AUTHOR), Watanabe, Kei1 (AUTHOR), Takemoto, Michitaka1 (AUTHOR), Tseng, Jo-chi1 (AUTHOR), Takahashi, Masakuni1,3 (AUTHOR), Sada, Yuki1 (AUTHOR), Yamazaki, Hiroshi1,4 (AUTHOR), Ohashi, Haruhiko1,4 (AUTHOR), Imai, Yasuhiko1,4 (AUTHOR), Hatsui, Takaki1,4 (AUTHOR), Inoue, Ichiro4 (AUTHOR), Kimura, Shigeru1 (AUTHOR), Sugimoto, Kunihisa1,5 (AUTHOR), Yabashi, Makina1,4 (AUTHOR), Sakata, Osami1 (AUTHOR), Higo, Yuji1 (AUTHOR), Tamasaku, Kenji1,4 (AUTHOR)
Source: Journal of Synchrotron Radiation. Mar2026, Vol. 33 Issue 2, p516-522. 7p.
Subjects: X-ray scattering, Structural analysis (Science), Temperature control, Materials analysis, Monochromators, Diffractometers, X-ray detection, Measuring instruments
Abstract: X‐ray total scattering is widely used for analyzing pair distribution functions (PDFs) to elucidate the local structure of materials. For achieving high‐throughput PDF analysis, a beamline monochromator and an experimental system were updated at BL04B2 of SPring‐8. The system consists of a diffractometer and 2D area detectors, which cover a wide Q range of 0.2–27 Å−1 at a photon energy of 113 keV, with a temperature control capability between 100 and 1100 K. The typical measurement time is reduced to ∼10 min per sample, which is more than ten times faster than the conventional setup. This system enables efficient structural analysis of various types of materials such as liquids, glasses and nanocrystals while yielding abundant measurement data for use in materials science. [ABSTRACT FROM AUTHOR]
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Database: Engineering Source
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