Free, flexible and fast: orientation mapping using the multi-core and GPU-accelerated template matching capabilities in the python-based open source 4D-STEM analysis toolbox Pyxem

Abstract: This work presents the new template matching capabilities implemented inPyxem, an open source Python library for analyzing four-dimensional scanning transmission electron microscopy (4D-STEM) data. Template matching is a brute force approach for deriving local crystal orientations. It works by comparing a library of simulated diffraction patterns to experimental patterns collected with nano-beam and precession electron diffraction (NBED and PED). This is a computationally demanding task, therefore the implemen… Show more

“…However, if the dataset being analyzed contains a large number of different sample thicknesses, multiple scattering can cause strong oscillations in the peak amplitude values. The intensity weighting factor v provides a similar effect as the "gamma correction" used in many diffraction template matching routines (Cautaerts et al, 2021), but acts on the measured disk intensities rather than the original diffraction pattern. As we will see in the simulations below, in these situations the best results may be achieved by setting v = 0, that is ignoring peak intensity and weighting only by the peak radii.…”

Automated Crystal Orientation Mapping in py4DSTEM using Sparse Correlation Matching

“…However, if the dataset being analyzed contains a large number of different sample thicknesses, multiple scattering can cause strong oscillations in the peak amplitude values. The intensity weighting factor v provides a similar effect as the "gamma correction" used in many diffraction template matching routines (Cautaerts et al, 2021), but acts on the measured disk intensities rather than the original diffraction pattern. As we will see in the simulations below, in these situations the best results may be achieved by setting v = 0, that is ignoring peak intensity and weighting only by the peak radii.…”

Automated Crystal Orientation Mapping in py4DSTEM using Sparse Correlation Matching