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The repository contains a set of python codes which are responsible for generation and investigation of a 3D cubic structure of ferroelectric ceramics using the FlexPDE which solved kinetic and Laplace's equations.
CaptainDasheng/3D_cube
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Folders Cube_codes - contains all python scripts cube - contains generated structure Symmetry and amount of cubes have to be set in the "Cube_codes\start.lxml" file. All materials parameters including angle distribution function will be automatically arranged for the chosen symmetry. First, you need to generate a structure and an applied field map. To this end command line | bash ./runs (a)mean <cos> value will appear on the screen (b)"FlexPDE file is ready" will appear on the screen (c) uv.dat with data regarding an applied field map will appear in the "cube" folder Then, the generated structure and the applied field map will be used to simulate structure with polarization, so that command line | bash ./runr a fully polarized system will first time be polarized providing .dat files at required moments of time command line | bash ./runr <---- voltage has to be changed to the repolarized system in the new direction after 2 repolarizations system is stable and can be studied IMPORTANT: time at which .dat file is expected should be set in the .pde file data for correlations and other analysis is optionally set in the .pde - the necessary script's lines comprised in the python script
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The repository contains a set of python codes which are responsible for generation and investigation of a 3D cubic structure of ferroelectric ceramics using the FlexPDE which solved kinetic and Laplace's equations.
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