Electric-field-intensity-modulated scattering as a thin-film depth probe
| Date Published |
11/2020
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|---|---|
| Publication Type | Journal Article
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| Authors | |
|---|---|
| DOI |
10.1107/S160057672001304710.1107/S1600576720013047/ge5076sup1.pdf
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| Abstract |
Grazing-incidence X-ray scattering is a common technique to elucidate nanostructural information for thin-film samples, but depth-resolving this nanostructure is difficult using a single or few images. An in situ method to extract film thickness, the index of refraction and depth information using scattering images taken across a range of incident angles is presented here. The technique is described within the multilayer distorted-wave Born approximation and validated using two sets of polymer thin films. Angular divergence and energy resolution effects are considered, and implementation of the technique as a general beamline procedure is discussed. Electric-field-intensity-modulated scattering is a general technique applicable to myriad materials and enables the acquisition of depth-sensitive information in situ at any grazing-incidence-capable beamline. |
| Journal |
Journal of Applied Crystallography
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| Volume |
53
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| Year of Publication |
2020
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| Issue |
6
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| Pagination |
1484 - 1492
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| Short Title |
J Appl Crystallography
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| Refereed Designation |
Refereed
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| Organizations | |
| Research Areas | |
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