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Hauptverfasser: Wu, Junlin, Xu, Erqi, Lin, Qihui, Yue, Jiaqing, Wang, Jiale, Xu, Zihao, Ju, Guangxu
Format: Preprint
Veröffentlicht: 2026
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Online-Zugang:https://arxiv.org/abs/2604.24604
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author Wu, Junlin
Xu, Erqi
Lin, Qihui
Yue, Jiaqing
Wang, Jiale
Xu, Zihao
Ju, Guangxu
author_facet Wu, Junlin
Xu, Erqi
Lin, Qihui
Yue, Jiaqing
Wang, Jiale
Xu, Zihao
Ju, Guangxu
contents We develop a general theory of crystal truncation rod (CTR) scattering from vicinal surfaces with a coherently strained heteroepitaxial film. The formalism incorporates film-induced interference fringes, full elastic lattice distortion, terrace ordering, surface reconstruction, and real-time growth evolution within a unified description. Comparison between Nagai model and elasticity-based model shows that the lattice tilt is nearly identical in the two approaches, whereas the elasticitybased model predicts an additional triclinic deformation arising from shear strain. This deformation has little effect on specular CTRs but strongly modifies non-specular rods, making them a sensitive probe of the full elastic state of coherent epitaxial films. We further show that the characteristic sensitivity of vicinal CTRs to terrace ordering, surface reconstruction, and terrace-resolved compositional modification remains robust in the presence of a coherent film. Representative calculations for InGaN/GaN demonstrate that the framework enables quantitative interpretation of both static and real-time CTR measurements and provides access to step- and terrace-resolved structural and kinetic information during heteroepitaxial growth.
format Preprint
id arxiv_https___arxiv_org_abs_2604_24604
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Step- and terrace-resolved crystal truncation rod scattering from vicinal surfaces under coherent heteroepitaxy
Wu, Junlin
Xu, Erqi
Lin, Qihui
Yue, Jiaqing
Wang, Jiale
Xu, Zihao
Ju, Guangxu
Materials Science
We develop a general theory of crystal truncation rod (CTR) scattering from vicinal surfaces with a coherently strained heteroepitaxial film. The formalism incorporates film-induced interference fringes, full elastic lattice distortion, terrace ordering, surface reconstruction, and real-time growth evolution within a unified description. Comparison between Nagai model and elasticity-based model shows that the lattice tilt is nearly identical in the two approaches, whereas the elasticitybased model predicts an additional triclinic deformation arising from shear strain. This deformation has little effect on specular CTRs but strongly modifies non-specular rods, making them a sensitive probe of the full elastic state of coherent epitaxial films. We further show that the characteristic sensitivity of vicinal CTRs to terrace ordering, surface reconstruction, and terrace-resolved compositional modification remains robust in the presence of a coherent film. Representative calculations for InGaN/GaN demonstrate that the framework enables quantitative interpretation of both static and real-time CTR measurements and provides access to step- and terrace-resolved structural and kinetic information during heteroepitaxial growth.
title Step- and terrace-resolved crystal truncation rod scattering from vicinal surfaces under coherent heteroepitaxy
topic Materials Science
url https://arxiv.org/abs/2604.24604