Accurate force-constants by using density functional perturbation theory
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Accurate force-constants by using density functional perturbation theory
Dear all,
I'm performing convergence tests for the interatomic force-constants by using density functional perturbation theory (IBRION = . The aim in the end is to obtain accurate phonon spectrums for a couple of systems. The calculations are running smooth and I get reasonble results. However, I have some thoughts about my procedure.
1. I have checked the convergence of the frequencies with respect to the k-point grid, ENCUT, EDIFF and also checked if ADDGRID = .TRUE. influences the results. Based on these tests I set the INCAR as below. Have I missed any important parameter for further accuracy? (The POTIM tag naturally doesn't affect anything in this case.)
NOTE: I will increase the supercell size as soon as I get all basic parameters in order.
2. So far I have only used even Monkhorst-Pack grids for the k-point mesh. Do I need to include the gamma point in this case (bcc cell)? I can't see a direct reason why it should be necessary.
3. By using the phonopy software I can obtain the phonon band structure and the phonon DOS from the Hessian matrix as obtain from VASP. It seems to work very well. However, I still wonder if there is any tools included in VASP that can do the same thing? Or alternatively, does anyone know if P4VASP include this feature? I checked the corresponding homepage but all links are currently dead so I can't install it and check.
Best regards,
/Dan Fors
INCAR:
=====
SYSTEM = Fe Bulk (FM)
ISTART = 0
ICHARG = 2
EDIFF = 1E-8
IBRION = 8
ENCUT = 700.0000 eV
ENAUG = 700.0000 eV
PREC = Accurate
ADDGRID = .TRUE.
LREAL = .FALSE.
ISPIN = 2
NELM = 400
NELMDL = -8
LMAXMIX = 4
ALGO = Normal
ISMEAR = 1
SIGMA = 0.1
MAGMOM = 2*4
LWAVE = .FALSE.
LCHARG = .FALSE.
<span class='smallblacktext'>[ Edited ]</span>
I'm performing convergence tests for the interatomic force-constants by using density functional perturbation theory (IBRION = . The aim in the end is to obtain accurate phonon spectrums for a couple of systems. The calculations are running smooth and I get reasonble results. However, I have some thoughts about my procedure.
1. I have checked the convergence of the frequencies with respect to the k-point grid, ENCUT, EDIFF and also checked if ADDGRID = .TRUE. influences the results. Based on these tests I set the INCAR as below. Have I missed any important parameter for further accuracy? (The POTIM tag naturally doesn't affect anything in this case.)
NOTE: I will increase the supercell size as soon as I get all basic parameters in order.
2. So far I have only used even Monkhorst-Pack grids for the k-point mesh. Do I need to include the gamma point in this case (bcc cell)? I can't see a direct reason why it should be necessary.
3. By using the phonopy software I can obtain the phonon band structure and the phonon DOS from the Hessian matrix as obtain from VASP. It seems to work very well. However, I still wonder if there is any tools included in VASP that can do the same thing? Or alternatively, does anyone know if P4VASP include this feature? I checked the corresponding homepage but all links are currently dead so I can't install it and check.
Best regards,
/Dan Fors
INCAR:
=====
SYSTEM = Fe Bulk (FM)
ISTART = 0
ICHARG = 2
EDIFF = 1E-8
IBRION = 8
ENCUT = 700.0000 eV
ENAUG = 700.0000 eV
PREC = Accurate
ADDGRID = .TRUE.
LREAL = .FALSE.
ISPIN = 2
NELM = 400
NELMDL = -8
LMAXMIX = 4
ALGO = Normal
ISMEAR = 1
SIGMA = 0.1
MAGMOM = 2*4
LWAVE = .FALSE.
LCHARG = .FALSE.
<span class='smallblacktext'>[ Edited ]</span>
Last edited by forsdan on Tue Dec 22, 2009 4:45 pm, edited 1 time in total.
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Re: Accurate force-constants by using density functional perturbation theory
Hi,
We're sorry that we didn’t answer your question. This does not live up to the quality of support that we aim to provide. The team has since expanded. If we can still help with your problem, please ask again in a new post, linking to this one, and we will answer as quickly as possible.
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