Beamline simulations using monochromators with high d-spacing crystals.

IF 2.4 3区 物理与天体物理 Q2 INSTRUMENTS & INSTRUMENTATION
Journal of Synchrotron Radiation Pub Date : 2022-09-01 Epub Date: 2022-08-12 DOI:10.1107/S160057752200707X
X J Yu, X Chi, T Smulders, A T S Wee, A Rusydi, M Sanchez Del Rio, M B H Breese
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引用次数: 0

Abstract

Monochromators for synchrotron radiation beamlines typically use perfect crystals for the hard X-ray regime and gratings for soft X-rays. There is an intermediate range, typically 1-3 keV (tender X-rays), which common perfect crystals have difficulties covering and gratings have low efficiency, although some less common crystals with high d-spacing could be suitable. To evaluate the suitability of these crystals for a particular beamline, it is useful to evaluate the crystals' performance using tools such as ray-tracing. However, simulations for double-crystal monochromators are only available for the most used crystals such as Si, Ge or diamond. Here, an upgrade of the SHADOW ray-tracing code and complementary tools in the OASYS suite are presented to simulate high d-spacing crystals with arbitrary, and sometimes complex, structures such as beryl, YB66, muscovite, etc. Isotropic and anisotropic temperature factors are also considered. The YB66 crystal with 1936 atomic sites in the unit cell is simulated, and its applicability for tender X-ray monochromators is discussed in the context of new low-emittance storage rings.

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用高d间距晶体单色仪进行光束线模拟。
用于同步辐射光束线的单色仪通常使用完美的硬x射线晶体和软x射线光栅。有一个中间范围,通常是1-3 keV(温柔的x射线),普通的完美晶体很难覆盖,光栅效率低,尽管一些不太常见的高d间距晶体可能是合适的。为了评估这些晶体对特定光束线的适用性,使用诸如光线追踪之类的工具来评估晶体的性能是有用的。然而,双晶单色仪的模拟只适用于最常用的晶体,如Si, Ge或金刚石。本文提出了SHADOW光线追踪代码的升级版和OASYS套件中的补充工具,用于模拟具有任意(有时是复杂)结构的高d间距晶体,如绿宝石、YB66、白云母等。同时考虑了各向同性和各向异性的温度因素。对具有1936个原子位的YB66晶体进行了模拟,并在新型低发射度存储环的背景下讨论了其在软x射线单色仪中的适用性。
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来源期刊
CiteScore
5.10
自引率
12.00%
发文量
289
审稿时长
4-8 weeks
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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