The IMAGE beamline at the KIT Light Source.

IF 2.5 3区物理与天体物理

Journal of Synchrotron Radiation Pub Date : 2025-07-01 Epub Date: 2025-06-02 DOI:10.1107/S1600577525003777

Angelica Cecilia, Rolf Simon, Elias Hamann, Marcus Zuber, Tomáš Faragó, Daniel Haenschke, Mathias Hurst, Thomas van de Kamp, Sondes Bauer, Rebecca Spiecker, Mateusz Czyzycki, Sergei Gasilov, Alexey Ershov, Jan Thorsten Reszat, Tilo Baumbach

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引用次数: 0

Abstract

The superconducting wiggler beamline IMAGE at the KIT Light Source is dedicated to full-field hard X-ray imaging applications in materials and life sciences, with a focus on high-throughput computed tomography, laminography experiments and systematic in situ and operando studies. With two experimental hutches, IMAGE provides space for its dedicated permanent experimental stations UFO-II and LAMINO-II as well as for flexible custom setups. IMAGE allows parallel beam imaging experiments in monochromatic, pink or white beam mode, with spatial resolutions ranging from ∼1 µm to ∼30 µm and a large horizontal and vertical field of view of up to 44 mm × 8 mm, respectively. Photon energies between 8 keV and 40 keV are provided by a double-crystal or double-multilayer monochromator optics with energy resolutions of 0.01% and 1.5-2.7%, respectively. The filtered white beam mode provides high flux densities of up to 7.5 × 10¹⁴ photons s^-1 mm^-2 at the sample position and energy spectra extending up to about 120 keV.

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KIT光源下的图像光束线。

KIT光源的超导摇摆光束线图像致力于材料和生命科学领域的全场硬x射线成像应用，重点是高通量计算机断层扫描、层析实验和系统的原位和操作研究。IMAGE有两个实验舱，为其专用的永久实验站UFO-II和LAMINO-II以及灵活的定制设置提供了空间。IMAGE允许在单色、粉色或白色光束模式下进行平行光束成像实验，空间分辨率范围为~ 1 μ m至~ 30 μ m，水平和垂直视场分别高达44 mm × 8 mm。在8 keV和40 keV之间的光子能量由双晶或双多层单色光学器件提供，能量分辨率分别为0.01%和1.5-2.7%。过滤后的白束模式在样品位置提供高达7.5 × 1014光子s-1 mm-2的高通量密度，能谱扩展到约120 keV。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Synchrotron Radiation INSTRUMENTS & INSTRUMENTATIONOPTICS&-OPTICS

CiteScore

5.60

自引率

12.00%

发文量

289

审稿时长

1 months

期刊介绍： Synchrotron radiation research is rapidly expanding with many new sources of radiation being created globally. Synchrotron radiation plays a leading role in pure science and in emerging technologies. The Journal of Synchrotron Radiation provides comprehensive coverage of the entire field of synchrotron radiation and free-electron laser research including instrumentation, theory, computing and scientific applications in areas such as biology, nanoscience and materials science. Rapid publication ensures an up-to-date information resource for scientists and engineers in the field.