.. _abinit_interface: Abinit & phonopy calculation ========================================= Supported Abinit variables --------------------------- Currently Abinit variables that phonopy can read are shown below. More variables may be supported on request. :: acell, natom, ntypat, rprim, scalecart, typat, xangst, xcart, xred, znucl How to run ----------- A procedure of Abinit-phonopy calculation is as follows: 1) Read an Abinit main input file and create supercells with :ref:`abinit_mode` option:: % phonopy --abinit -d --dim="2 2 2" -c NaCl.in In this example, 2x2x2 supercells are created. ``supercell.in`` and ``supercell-xxx.in`` (``xxx`` are numbers) give the perfect supercell and supercells with displacements, respectively. In these supercell files, lines only related to crystal structures are generated. ``disp.yaml`` is also created. This file contains information on displacements. Perhaps the supercell files are stored in ``disp-xxx`` directories, then Abinit calculations are executed in these directories. 2) Calculate forces on atoms in the supercells with displacements. Calculation specification variables have to be added to ``supercell-xxx.in`` files. Crystal structure is not allowed to relaxed in the force calculations, because atomic forces induced by a small atomic displacement are what we need for phonon calculation. 3) Create ``FORCE_SETS`` by :: % phonopy --abinit -f disp-001/supercell-001.out disp-002/supercell-002.out ... To run this command, ``disp.yaml`` has to be located in the current directory because the atomic displacements are written into the FORCE_SETS file. See some more detail at :ref:`abinit_force_sets_option`. An example is found in ``example/NaCl-abinit``. 4) Run post-process of phonopy with the Abinit main input file for the unit cell used in the step 1:: % phonopy --abinit -c NaCl.in -p band.conf or:: % phonopy --abinit -c NaCl.in --dim="2 2 2" [other-OPTIONS] [setting-file]