Scanning X-ray nanodiffraction: From the experimental approach towards spatially resolved scattering simulations
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Date
2012
Volume
7
Issue
Journal
Series Titel
Book Title
Publisher
London : BioMed Central
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Abstract
An enhancement on the method of X-ray diffraction simulations for applications using nanofocused hard X-ray beams is presented. We combine finite element method, kinematical scattering calculations, and a spot profile of the X-ray beam to simulate the diffraction of definite parts of semiconductor nanostructures. The spot profile could be acquired experimentally by X-ray ptychography. Simulation results are discussed and compared with corresponding X-ray nanodiffraction experiments on single SiGe dots and dot molecules.
Description
Keywords
Quantum dots, Quantum dot molecules, X-ray nanodiffraction, X-ray scattering simulation, 68.65.Hb, 61.05.C-
Citation
Dubslaff, M., Hanke, M., Patommel, J., Hoppe, R., Schroer, C. G., Schöder, S., & Burghammer, M. (2012). Scanning X-ray nanodiffraction: From the experimental approach towards spatially resolved scattering simulations. 7. https://doi.org//10.1186/1556-276X-7-553
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License
CC BY 2.0 Unported