Dr Probe Gui Sample Setup The dialog has two tab pages for changing the sample setup. the first page is used to create object transmission functions for slices of an atomic structure model, while the second page is used to stack structure slices generating a thick sample. Creating sample data requires a sequence of 4 steps as indicated by the dialog text. 1. load and modify an atomic structure model. select a super cell file containing the atomic structure model describing the sample. choose either a cel file or a cif file for loading.
Dr Probe Gui Documentation Create Sample Data The following example provides a basic overview on the workflow of using the drprobe interface package. a more detailled example for an hrtem image simulation of srtio3 is given in the examples folder. The easiest way of setting up a thick sample is to use the [set ] button next to the max. thickness display. you can set the desired sample thickness in nanometers and the program will fill the slice list on the left side with a periodic sequence of the slices on the right side. The user interface is build in dialog form with input controls for parameter setup and managing data. results of simulations are shown in additional data display windows. The dialog has two tab pages for changing the sample setup. the first page is used to create object transmission functions for slices of an atomic structure model, while the second page is used to stack structure slices generating a thick sample.
Dr Probe Gui Documentation Create Sample Data The user interface is build in dialog form with input controls for parameter setup and managing data. results of simulations are shown in additional data display windows. The dialog has two tab pages for changing the sample setup. the first page is used to create object transmission functions for slices of an atomic structure model, while the second page is used to stack structure slices generating a thick sample. Major program features available with the graphical user interface version are demonstrated by means of a few examples for bright field and dark field stem imaging as well as simulations of. In this classic example we will simulate bright field and haadf stem images of cubic perovskite srtio 3 in [001] orientation using the dr. probe gui version 1.9. for the simulation we consider a spherical aberration corrected 300 kv scanning transmission electron microscope with 0.8 Å resolution. Images of multiple detectors can be simultaneously calculated. the detector setup allows you also to specify radial sensitivity profiles to achieve even better quantitative comparisons between experiment and simulation. defined detectors are shown in the list with their parameters. The following example provides a basic overview on the workflow of using the drprobe interface package. a more detailled example for an hrtem image simulation of srtio3 is given in the examples folder.
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