Finite‐element simulation for crystals with surface undulations based on Takagi–Taupin theory

A finite‐element method based on a weak formulation of the Takagi–Taupin equations was adopted to study the X‐ray diffraction of crystals with surface undulations. A general diffraction geometry was simulated to investigate the diffraction features caused by the surface undulations. The numerical re...

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Published in	Journal of applied crystallography Vol. 56; no. 2; pp. 391 - 400
Main Authors	Wang, Yu-Hang, Li, Ming, Kang, Le, Jia, Quan-Jie
Format	Journal Article
Language	English
Published	5 Abbey Square, Chester, Cheshire CH1 2HU, England International Union of Crystallography 01.04.2023 Blackwell Publishing Ltd
Subjects	Crystals dynamical diffraction finite‐element method Frequency ranges Mathematical analysis surface morphologies Takagi–Taupin equations Wave diffraction
Online Access	Get full text
ISSN	1600-5767 0021-8898 1600-5767
DOI	10.1107/S1600576723000808

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Abstract	A finite‐element method based on a weak formulation of the Takagi–Taupin equations was adopted to study the X‐ray diffraction of crystals with surface undulations. A general diffraction geometry was simulated to investigate the diffraction features caused by the surface undulations. The numerical results reveal that the effects of surface undulations on Bragg diffraction are local for those limited in the low‐frequency range and physically result from the refractive effect, brought on by the variation of the local asymmetry angle. Thus, a formula based on the local perfect flat crystal approximation was introduced to efficiently evaluate the change in the direction of the diffracted wave caused by surface undulations. Takagi–Taupin dynamical X‐ray diffraction simulations of crystals with surface undulations show that the influence of the surface undulations is local for those in the low‐frequency range and can be predicted by classical X‐ray dynamical theory.
AbstractList	A finite‐element method based on a weak formulation of the Takagi–Taupin equations was adopted to study the X‐ray diffraction of crystals with surface undulations. A general diffraction geometry was simulated to investigate the diffraction features caused by the surface undulations. The numerical results reveal that the effects of surface undulations on Bragg diffraction are local for those limited in the low‐frequency range and physically result from the refractive effect, brought on by the variation of the local asymmetry angle. Thus, a formula based on the local perfect flat crystal approximation was introduced to efficiently evaluate the change in the direction of the diffracted wave caused by surface undulations. A finite‐element method based on a weak formulation of the Takagi–Taupin equations was adopted to study the X‐ray diffraction of crystals with surface undulations. A general diffraction geometry was simulated to investigate the diffraction features caused by the surface undulations. The numerical results reveal that the effects of surface undulations on Bragg diffraction are local for those limited in the low‐frequency range and physically result from the refractive effect, brought on by the variation of the local asymmetry angle. Thus, a formula based on the local perfect flat crystal approximation was introduced to efficiently evaluate the change in the direction of the diffracted wave caused by surface undulations. Takagi–Taupin dynamical X‐ray diffraction simulations of crystals with surface undulations show that the influence of the surface undulations is local for those in the low‐frequency range and can be predicted by classical X‐ray dynamical theory.
Author	Wang, Yu-Hang Li, Ming Jia, Quan-Jie Kang, Le
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Cites_doi	10.1002/andp.19163540102 10.1107/S1600576720005166 10.1143/JPSJ.27.147 10.1107/S0567739471000962 10.1107/S0365110X62003473 10.1143/JPSJ.28.1508 10.1364/OE.409961 10.1107/S0567739468000161 10.1107/S1600576720005178 10.1017/CBO9780511569388 10.1107/S0567739480000046 10.1016/j.sab.2011.09.011 10.1107/S0365110X67002099 10.1107/S1600576718001930 10.1117/12.562377 10.1016/0025-5416(85)90294-0 10.1007/978-1-4757-4338-8 10.1107/S010876739701252X 10.1002/andp.19173592305 10.1103/PhysRevA.87.063828 10.1143/JPSJ.31.1141 10.1143/JPSJ.26.1239 10.1107/S090904950705340X 10.1016/0370-1573(91)90086-2 10.1107/S0567739482000965
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Snippet	A finite‐element method based on a weak formulation of the Takagi–Taupin equations was adopted to study the X‐ray diffraction of crystals with surface... A finite-element method based on a weak formulation of the Takagi–Taupin equations was adopted to study the X-ray diffraction of crystals with surface...
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SubjectTerms	Crystals dynamical diffraction finite‐element method Frequency ranges Mathematical analysis surface morphologies Takagi–Taupin equations Wave diffraction
Title	Finite‐element simulation for crystals with surface undulations based on Takagi–Taupin theory
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