Dear VASP
I want it to be clarified specifically what 'non-magnetic ground state' exactly means.
According to the manual, non-magnetic ground state CHGCAR file is needed to do some non-collinear calculations.
What does the exact setting in INCAR file?
Is it right that non-magnetic ground state is not only LNONCOLLINEAR=F, but also ISPIN=1?
If it is right, I have another question about scf.
Resulting 'length of vectors line' in OUTCAR is different in both cases, right? (magnetic and non-magnetic)
So, some stress or forces can be induced from difference between magnetic and non-magnetic structure.
In this situation, is the optimized structure determined by non-magnetic calculation reliable? Also the CHGCAR file?
Or, I have to do some trick not to induce stress or force in obtaining non-magnetic CHGCAR file such as:
1. structural optimization with ISPIN=2, LNONCOLLINEAR=T to get optimized magnetic structure.
2. static calculation with the structure obtained from above to get non-magnetic CHGCAR file. (NSW=0, ISPIN=1, LNONCOLLINEAR=F).
Well, in summary, how can I set INCAR file explicitly to get a non-magnetic ground state CHGCAR file?
and, is the difference in lattice parameters between magnetic and non-magnetic state negligible? If not, is the trick suggested by me reasonable?
best regards,
Kisung
non-magnetic ground state?
Moderators: Global Moderator, Moderator
-
duncan2
non-magnetic ground state?
Last edited by duncan2 on Fri Jan 23, 2009 4:21 am, edited 1 time in total.
-
admin
- Administrator
- Posts: 2921
- Joined: Tue Aug 03, 2004 8:18 am
- License Nr.: 458
non-magnetic ground state?
1) non-magnetic means that ISPIN=1, you are correct
2) usually, the equilibrium structures of magnetic and non-magnetic states are slightly different. However, the changes due to magnetization usually are rather small, so one can safely assume that the non-magnetic structure is a good starting guess for the optimization of the magnetic strucutre.
3) ISPIN=2 is not appropriate for non-collinear magnetic structures, just for FM and AFM spin orientations.
4) you will have to do further relaxation steps if you turn on/off magnetization, NSW must not be set to 0. How many steps are needed, depends on the diffrence of the ground state structures.
2) usually, the equilibrium structures of magnetic and non-magnetic states are slightly different. However, the changes due to magnetization usually are rather small, so one can safely assume that the non-magnetic structure is a good starting guess for the optimization of the magnetic strucutre.
3) ISPIN=2 is not appropriate for non-collinear magnetic structures, just for FM and AFM spin orientations.
4) you will have to do further relaxation steps if you turn on/off magnetization, NSW must not be set to 0. How many steps are needed, depends on the diffrence of the ground state structures.
Last edited by admin on Fri Jan 23, 2009 12:51 pm, edited 1 time in total.
-
duncan2
non-magnetic ground state?
in your apply 3), you mean ISPIN=1 and LNONCOLLINEAR=T yields the same result as ISPIN=2 and LNONCOLLINEAR=T??
OR
switching on both ISPIN=2 and LNONCOLLINEAR=% has to be avoided?
which one??
OR
switching on both ISPIN=2 and LNONCOLLINEAR=% has to be avoided?
which one??
Last edited by duncan2 on Fri Jan 23, 2009 2:39 pm, edited 1 time in total.