Non-selfconsistent calculation with arbitrary charge density

Queries about input and output files, running specific calculations, etc.


Moderators: Global Moderator, Moderator

Locked
Message
Author
ferdl

Non-selfconsistent calculation with arbitrary charge density

#1 Post by ferdl » Thu Feb 11, 2010 10:11 am

Dear forum,

I have a question concerning calculations using ICHARG=11. I want to estimate the influence of charge rearrangements upon putting two fragments together on the final DOS of the combined system. For that purpose, I performed

- a self-consistent calculation on the full system
- a non-selfconsistent calculation on the full system (ICHARG=11) using as input charge density the sum of the charge densities of the individual fragments to be combined, leaving the augmentation occupancies unchanged.

From comparing the resulting DOS I want to conclude that
- the charge rearrangements are irrelevant for the resulting DOS as long as the scf and non-scf DOS match very well
or
- the charge rearrangements are relevant for the resulting DOS as long as the scf and non-scf DOS don't match.

I am asking if this interpretation is correct since I am not quite sure about the details of ICHARG=11. I tend to think that the input charge density is used to generate the potential/Hamiltonian and then the eigenvalues and functions are determined, but no updating of the charge density is done. If, however, the output density would be calculated, it could easily differ from the input density in my case. If input and output density differ sufficiently, the DOS (the eigenvalues), I guess, neither corresponds to input nor output density but is meaningless since self-consistency is not established. If the DOS doesn't match the scf-DOS this is, obviously, the case. The other way round I want to conclude that if the DOS equals the scf-DOS the differences between input and output density are, at least regarding the DOS, irrelevant.


Let me sum up my questions:

1) Can I draw the conclusion concerning the importance of charge rearrangements for the DOS using this kind of calculation?
2) Is there any way of interpreting the eigenvalues/the DOS when self-consistency (input equals output density) is NOT given?


Thanks for any help,
Ferdinand
Last edited by ferdl on Thu Feb 11, 2010 10:11 am, edited 1 time in total.

support_vasp
Global Moderator
Global Moderator
Posts: 1817
Joined: Mon Nov 18, 2019 11:00 am

Re: Non-selfconsistent calculation with arbitrary charge density

#2 Post by support_vasp » Wed Sep 11, 2024 2:14 pm

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.

Best wishes,

VASP


Locked