Hello all,
I want to do calculations for phonons using the DFPT method. I have confusion about whether I could use a unit cell, where a=23.9 angstrom, b=4.8 angstrom, and c=5.6 angstrom, for my DFPT phonon calculation, or do I need to consider a supercell for that?
Again, it is mentioned in the vasp wiki page for "LPHON_DISPERSION" that "After the computation of the force constants using finite differences (IBRION=5,6) or density-functional perturbation theory (IBRION=7,8) on a supercell it is possible to compute the phonon dispersion for the equivalent primitive cell determined by VASP by setting LPHON_DISPERSION=.TRUE."
That is why I am confused regarding the consideration of unit cell in the DFPT calculation. It will be of great help if anyone can clear up the confusion.
Thanks in advance.
Need of supercell in phonon calculation using the DFPT method
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Re: Need of supercell in phonon calculation using the DFPT method
Dear payal_saha,
As you can read here, with DFPT VASP only computes phonons at q=0. If you want other momenta you must use different supercells where those momenta are folded into q=0.
If you want the full phonon dispersion, I would suggest that you would read on how to compute phonons from finite differences, which should be a faster method, in general.
Kind regards,
Pedro Melo
As you can read here, with DFPT VASP only computes phonons at q=0. If you want other momenta you must use different supercells where those momenta are folded into q=0.
If you want the full phonon dispersion, I would suggest that you would read on how to compute phonons from finite differences, which should be a faster method, in general.
Kind regards,
Pedro Melo
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Re: Need of supercell in phonon calculation using the DFPT method
A small addendum to my previous reply: by default, both DFPT and finite differences only compute phonons at q=0. It is by activating the interpolation procedure with that you compute phonons at other q-points. However, DFPT is currently just worse in many aspects, so finite differences should be the go-to method.
If you wish to skip interpolation, then you must use supercells which are commensurate with the que q-point you want, but this is in most cases too costly.
Best,
Pedro Melo
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lphon_disperion=true
If you wish to skip interpolation, then you must use supercells which are commensurate with the que q-point you want, but this is in most cases too costly.
Best,
Pedro Melo
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Re: Need of supercell in phonon calculation using the DFPT method
Dear pedro_melo,
Thank you for the reply .
Does that mean if I use the interpolation method (lphon_disperion=true), then I can do the phonon calculations in a unit cell?
Thank you for the reply .
Does that mean if I use the interpolation method (lphon_disperion=true), then I can do the phonon calculations in a unit cell?