Crystal image analysis using $2D$ synchrosqueezed transforms
Abstract
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.
Cite
@article{arxiv.1402.1262,
title = {Crystal image analysis using $2D$ synchrosqueezed transforms},
author = {Haizhao Yang and Jianfeng Lu and Lexing Ying},
journal= {arXiv preprint arXiv:1402.1262},
year = {2015}
}
Comments
27 pages, 17 figures