![]() STEM simulations are difficult primarily because of the "scanning" aspect, where the electron probe is moved over the sample surface - each new probe location requires a full multiple-scattering simulation, and STEM images often contain millions of pixels. STEM experiments are routinely used for atomic-resolution imaging of samples in materials science and other fields. Prismatic is the name of our simulation code which performs quantum-mechanical simulation of images and diffraction patterns for scanning transmission electron microscopy (STEM). New to Prismatic and STEM simulation? Start with the SuperSTEM 2018 GUI Tutorial! If you would like to stay informed about future releases, request help, or donate your time for development, we strongly encourage you to check out our Github page or reach out to the developers. Prismatic version 2.0 is now officially released! Check out our most recent publication here detailing some of the new algorithmic features.
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