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Bibliographic Details
Main Authors: Shen, Chen, Zhang, Honghu, Klösgen, Beate, Ocko, Benjamin M.
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2506.14672
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author Shen, Chen
Zhang, Honghu
Klösgen, Beate
Ocko, Benjamin M.
author_facet Shen, Chen
Zhang, Honghu
Klösgen, Beate
Ocko, Benjamin M.
contents The surface roughness of a thin film at a liquid interface exhibits contributions of thermally excited fluctuations. This thermal roughness depends on temperature (T), surface tension ($γ$) and elastic material properties, specifically the bending modulus ($κ$) of the film. A non-zero $κ$ suppresses the thermal roughness at small length scales compared to an interface with zero $κ$, as expressed by the power spectral density (PSD) of the thermal roughness. The description of the X-ray scattering of the standard Capillary Wave Model (CWM), that is valid for zero $κ$, is extended to include the effect of $κ$. The extended CWM (eCWM) provides a single analytical form for both the specular XRR and the diffuse scattering around the specular reflection, and recovers the expression of the CWM at its zero $κ$ limit. This new theoretical approach enables the use of single-shot grazing incidence X-ray off-specular scattering (GIXOS) measurements for characterizing the structure of thin films on a liquid surface. The eCWM analysis approach decouples the thermal roughness factor from the surface scattering signal, providing direct access to the intrinsic surface-normal structure of the film and its bending modulus. Moreover, the eCWM facilitates the calculation of reflectivity at any desired resolution (pseudo XRR approach). The transformation into pseudo XRR provides the benefit of using widely available XRR software to perform GIXOS analysis. The extended range of the vertical scattering vector (Qz) available with the GIXOS-pseudo XRR approach allows for a higher spatial resolution than with conventional XRR. Experimental results are presented for various lipid systems, showing strong agreement between conventional specular XRR and pseudo XRR methods. This agreement validates the proposed approach and highlights its utility for analyzing soft, thin films.
format Preprint
id arxiv_https___arxiv_org_abs_2506_14672
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Extending the capillary wave model to include the effect of bending rigidity: X-ray reflectivity and diffuse scattering
Shen, Chen
Zhang, Honghu
Klösgen, Beate
Ocko, Benjamin M.
Soft Condensed Matter
The surface roughness of a thin film at a liquid interface exhibits contributions of thermally excited fluctuations. This thermal roughness depends on temperature (T), surface tension ($γ$) and elastic material properties, specifically the bending modulus ($κ$) of the film. A non-zero $κ$ suppresses the thermal roughness at small length scales compared to an interface with zero $κ$, as expressed by the power spectral density (PSD) of the thermal roughness. The description of the X-ray scattering of the standard Capillary Wave Model (CWM), that is valid for zero $κ$, is extended to include the effect of $κ$. The extended CWM (eCWM) provides a single analytical form for both the specular XRR and the diffuse scattering around the specular reflection, and recovers the expression of the CWM at its zero $κ$ limit. This new theoretical approach enables the use of single-shot grazing incidence X-ray off-specular scattering (GIXOS) measurements for characterizing the structure of thin films on a liquid surface. The eCWM analysis approach decouples the thermal roughness factor from the surface scattering signal, providing direct access to the intrinsic surface-normal structure of the film and its bending modulus. Moreover, the eCWM facilitates the calculation of reflectivity at any desired resolution (pseudo XRR approach). The transformation into pseudo XRR provides the benefit of using widely available XRR software to perform GIXOS analysis. The extended range of the vertical scattering vector (Qz) available with the GIXOS-pseudo XRR approach allows for a higher spatial resolution than with conventional XRR. Experimental results are presented for various lipid systems, showing strong agreement between conventional specular XRR and pseudo XRR methods. This agreement validates the proposed approach and highlights its utility for analyzing soft, thin films.
title Extending the capillary wave model to include the effect of bending rigidity: X-ray reflectivity and diffuse scattering
topic Soft Condensed Matter
url https://arxiv.org/abs/2506.14672