Index of /espresso_v6.1/i386_linux26/qe-6.1/Examples/PHonon/example07
Name Last modified Size Description
![[DIR]](/icons/back.gif)
Parent Directory 03-Mar-2017 02:09 -
![[DIR]](/icons/folder.gif)
reference/ 03-Mar-2017 01:46 -
![[ ]](/icons/unknown.gif)
run_example 03-Mar-2017 01:46 7k
This example tests pw.x and ph.x in several cases that require the
noncollinear or the spin-orbit part of the code together with the gga.
ph.x is used to calculate the phonons at X and Gamma of fcc-Pt with gga,
and to calculate the phonons at X and Gamma of fcc-Ni to test the magnetic
case with gga with or without spin-orbit.
The calculation proceeds as follows:
1) make a self-consistent calculation for fcc-Pt
(input=pt.scf.in, output=pt.scf.out).
2) make a phonon calculation at the Gamma point (input=pt.phG.in,
output=pt.phG.out).
3) make a phonon calculation at X (input=pt.phX.in, output=pt.phX.out).
4) make a self-consistent calculation for fcc-Ni in the noncollinear case
(input=ni.scf.in, output=ni.scf.out).
5) make a phonon calculation at the Gamma point (input=ni.phG.in,
output=ni.phG.out).
6) make a phonon calculation at X (input=ni.phX.in, output=ni.phX.out).
7) make a self-consistent calculation for fully relativistic fcc-Ni
(input=ni_so.scf.in, output=ni_so.scf.out).
8) make a phonon calculation at the Gamma point (input=ni_so.phG.in,
output=ni_so.phG.out).
9) make a phonon calculation at X (input=ni_so.phX.in, output=ni_so.phX.out).