Software to calculate crystal microscopic anharmonic properties from molecular dynamics (MD) using the normal-mode-decomposition technique. These properties include the phonon frequency shifts and linewidths, as well as the renormalized force constanst and thermal properties by using quasiparticle theory. This code includes interfaces for MD outputs from VASP and LAMMPS. PHONOPY code is used to obtain harmonic phonon modes.
Online manual: http://abelcarreras.github.io/DynaPhoPy/
- Requirements
- Python 2.7.x/3.5 or higher
- Phonopy 2.0 or higher (https://phonopy.github.io/phonopy)
- Matplotlib
- Scipy
- h5py
- pyYAML
- (optional) pyFFTW (http://www.fftw.org/)
- (optional) cuda_functions (https://github.com/abelcarreras/cuda_functions)
2a. Install from pypi repository
pip install dynaphopy --user
2b. Install from source (requires c compiler)
- Install requirements from requirements.txt:
pip install -r requirements.txt --user
- Run setup.py to install dynaphopy
python setup.py install --user
- Command line method
- execute dynaphopy -h for detailed description of available options
dynaphopy input_file MD_file [Options]
- Interactive mode
- Use -i option from command line method and follow the instructions
dynaphopy input_file MD_file -i
- Scripting method (as a module)
- Dynaphopy can be imported as a python module
- In examples/api_scripts directory an example script is available (script_silicon.py)
- The comments in the script makes it (hopefully) self explained.
Input files for several materials can be found in the same example/inputs directory. More information in the online manual at: http://abelcarreras.github.io/DynaPhoPy
Abel Carreras
[email protected]
Donostia International Physics Center (DIPC)
Donostia-San Sebastian (Spain)