Gianluca Iori, Mustafa Alzu'bi, Anas Abbadi, Yazeed Al Momani, Abdel Rahman Hasoneh, Pierre Van Vaerenbergh, Ivan Cudin, Jordi Marcos, Abdalla Ahmad, Anas Mohammad, Salman Matalgah, Ibrahim Foudeh, Mohammad Al Najdawi, Adel Amro, Abid Ur Rehman, Mohammad Abugharbiyeh, Rami Khrais, Amro Aljadaa, Mohammad Nour, Hussam Al Mohammad, Farouq Al Omari, Majeda Salama, María José García Fusté, Juan Reyes-Herrera, Christian Morawe, Maher Attal, Samira Kasaei, Charalambos Chrysostomou, Tomasz Kołodziej, Mateusz Boruchowski, Paweł Nowak, Jarosław Wiechecki, Anis Fatima, Andrea Ghigo, Adriana I Wawrzyniak, Kirsi Lorentz, Giorgio Paolucci, Frank Lehner, Michael Krisch, Marco Stampanoni, Alexander Rack, Axel Kaprolat, Andrea Lausi
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引用次数: 0
摘要
位于约旦的中东同步加速器光源(SESAME)的ID10光束线于2023年6月落成,现已向科研用户开放。该光束线是在欧洲地平线2020项目BEAmline for Tomography at SESAME (BEATS)中设计和安装的,利用单色或多色X射线提供全场X射线放射成像和微观层析成像,光子能量高达100 keV。光子源由带有可变间隙的 2.9 T 波长转换器和双多层单色器系统产生,可广泛应用于需要高强度和高通量 X 射线束和/或相位对比应用的部分空间相干束的实验。样品操作和 X 射线检测系统可扫描不同尺寸、重量和材料的样品,提供的图像体素尺寸从 13 微米到 0.33 微米不等。用于数据收集、三维(3D)图像重建和数据分析的先进计算基础设施可在扫描完成后的几秒钟内实现结果的在线可视化和探索。三维 X 射线成像的洞察力是研究考古和文化遗产、生物和健康科学、材料科学和工程、地球、环境科学等领域标本的关键。在该光束线获得的显微层析成像扫描和初步结果表明,新光束线 ID10-BEATS 极大地扩展了 SESAME 的科学应用范围。
BEATS: BEAmline for synchrotron X-ray microTomography at SESAME.
The ID10 beamline of the SESAME (Synchrotron-light for Experimental Science and Applications in the Middle East) synchrotron light source in Jordan was inaugurated in June 2023 and is now open to scientific users. The beamline, which was designed and installed within the European Horizon 2020 project BEAmline for Tomography at SESAME (BEATS), provides full-field X-ray radiography and microtomography imaging with monochromatic or polychromatic X-rays up to photon energies of 100 keV. The photon source generated by a 2.9 T wavelength shifter with variable gap, and a double-multilayer monochromator system allow versatile application for experiments requiring either an X-ray beam with high intensity and flux, and/or a partially spatial coherent beam for phase-contrast applications. Sample manipulation and X-ray detection systems are designed to allow scanning samples with different size, weight and material, providing image voxel sizes from 13 µm down to 0.33 µm. A state-of-the-art computing infrastructure for data collection, three-dimensional (3D) image reconstruction and data analysis allows the visualization and exploration of results online within a few seconds from the completion of a scan. Insights from 3D X-ray imaging are key to the investigation of specimens from archaeology and cultural heritage, biology and health sciences, materials science and engineering, earth, environmental sciences and more. Microtomography scans and preliminary results obtained at the beamline demonstrate that the new beamline ID10-BEATS expands significantly the range of scientific applications that can be targeted at SESAME.
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.
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