Crystal Image Analysis Using 2D Synchrosqueezed Transforms
Copyright policy )Crystal Image Analysis Using 2D Synchrosqueezed Transforms
We propose efficient algorithms based on a band-limited version of 2D synchrosqueezed transforms to extract mesoscopic and microscopic information from atomic crystal images. The methods analyze atomic crystal images as an assemblage of non-overlapping segments of 2D general intrinsic mode type functions, which are superpositions of non-linear wave-like components. In particular, crystal defects are interpreted as the irregularity of local energy; crystal rotations are described as the angle deviation of local wave vectors from their references; the gradient of a crystal elastic deformation can be obtained by a linear system generated by local wave vectors. Several numerical examples of synthetic and real crystal images are provided to illustrate the efficiency, robustness, and reliability of our methods.
27 pages, 17 figures
- Duke University United States
- The University of Texas at Austin United States
Texture in solid mechanics, crystal defect, Nonlinear elasticity, elastic deformation, Numerical Analysis (math.NA), Other numerical methods in solid mechanics, 2D general wave shape, Numerical methods in Fourier analysis, FOS: Mathematics, 2D band-limited synchrosqueezed transforms, 2D general intrinsic mode type function, Mathematics - Numerical Analysis, Crystalline structure, crystal rotation
Texture in solid mechanics, crystal defect, Nonlinear elasticity, elastic deformation, Numerical Analysis (math.NA), Other numerical methods in solid mechanics, 2D general wave shape, Numerical methods in Fourier analysis, FOS: Mathematics, 2D band-limited synchrosqueezed transforms, 2D general intrinsic mode type function, Mathematics - Numerical Analysis, Crystalline structure, crystal rotation
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