forked from lijiext/lammps
9ed741e904
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| BulkNi.in | ||
| README | ||
README
This is a simple example of showing the computation of virutal x-ray and electron diffraction patterns for Ni. In addition to the LAMMPS output, a simple visualizaiton of the electron diffraction data is included. The visualization was created using the VisIt Open Source visualiztion software develeoped at Larrence Livermore National Laboraatory (https://wci.llnl.gov/simulation/computer-codes/visit/). Below is a step by step guide to produce similar images: a) Open the diffraction .vtk files in VisIt b) Click add->pseudocolor->intensity; *Note, green name means its ready to be drawn c) Click Draw; *Note, you will see the full rectangular mesh grid which is what we are wanting. We need to remove ghost data (those values set to -1). d) Select intensity plot; Click Operators->Selection->Isovolume; Double click isovolume (under intensity plot); Change lower bound to 0; Click Apply; Click Dismiss; Click Draw; *Note, now you will see only where there was valid intensity data (if you don't use Zone it will be a sphere). But most intensity are low so color the intensity by log scale. e) Select intensity plot Double click Pseudocolor; Change Scale to Log; Check Mimimum Limit; Input non-zero minimum limit (i.e. 1); Click Apply; Click Dismiss; Note, clicking apply will change the scale automatically. But unless you have used Zone and a thin dR_Ewald you likely have lots of extra data visualized that does not intersect the Ewald sphere. Next, we want to take a spherical slice to mimic the intersection of Ewald's sphere with reciprocal space. f) Select intensity plot; Click Operators->Slicing>Spherical Slice; Double click Spherical Slice; Change the origin/radius to represent the center of your Ewald sphere; **(i.e. 39.84063 0 0) and radius (i.e. 39.84063) for lambda = 0.251 ** Click Apply; Click Dismiss; Click Draw; This is the saed pattern, but we are not guaranteed to be aligned correctly with the zone axis. g) On the menu bar... select Controls -> View; Change View Normal to the zone axis of choice (i.e. -1 0 0); Adjust Up Vector if desired (i.e. 0 1 0); Turn off Perspective view; Click Apply; Click Dismiss; *Note that for the primary x, y, and z zone axis you can use the drop own Align to axis. However, it is likely that there is a bunch of extra annotations on the image that don't look appealing. h) On the menu bar... select Control-> Annotation; *Here you can change what is visualized along side the data and how you display axis information. I typically turn most all the display information off. i) Save the image Click File-> Set save options Click Save ** Note, further fine tuning can be achieved by adjusing the color table and max/min values **