Band level filling has no sharp cut-off at Fermi energy !?
Posted: Tue Nov 28, 2006 11:08 am
Hi all,
I have a structure of 14 ions more or less in a plane. The structure has
a mirror plane perpendicular to the structure.
The PROCAR file has all the bands / k-points with their occupancies.
Very low energy levels have an occupancy of 2.000, but approaching
the Fermi energy, the occupancies gradually decrease, which continues
above the Fermi energy.
And also: some levels below the fermi energy have occupancies over
2.000 !?!?!
I'd expect all occupancies to be 2.0000, which abrupty changes to
0.0000 at the fermi energy.
So to me this is very strange, as if there is some kind of thermal energy.
I use as smearing the tetrahedron with Blochl corrections (SIGMA=0.001).
Any idea what is the reason for this?
I use PAW potentials and the INCAR file is like this:
KPOINTS file is like this:
A printout of energy vs. occupancy of the energies around
the fermi energy is here:
http://surfion.snu.ac.kr/~lahaye/vasp/Fermi
Thanks,
Rob.
I have a structure of 14 ions more or less in a plane. The structure has
a mirror plane perpendicular to the structure.
The PROCAR file has all the bands / k-points with their occupancies.
Very low energy levels have an occupancy of 2.000, but approaching
the Fermi energy, the occupancies gradually decrease, which continues
above the Fermi energy.
And also: some levels below the fermi energy have occupancies over
2.000 !?!?!
I'd expect all occupancies to be 2.0000, which abrupty changes to
0.0000 at the fermi energy.
So to me this is very strange, as if there is some kind of thermal energy.
I use as smearing the tetrahedron with Blochl corrections (SIGMA=0.001).
Any idea what is the reason for this?
I use PAW potentials and the INCAR file is like this:
Code: Select all
PREC = Accurate
EDIFF = 1E-5
LREAL = Auto
NEDOS = 1001
ISMEAR = -5
SIGMA = 0.001
LORBIT = 12
NBANDS = 39
Code: Select all
k-points with Monckhorst-Pack
0
Monkhorst-Pack
9 9 9
0 0 0
the fermi energy is here:
http://surfion.snu.ac.kr/~lahaye/vasp/Fermi
Thanks,
Rob.