Gap in pristine graphene DOS
Posted: Tue Jan 14, 2014 7:24 pm
Dear VASP users.
I'm performing density of states calculations on pristine graphene unit cell, using the tetrahedron method (ISMEAR = -5).
I followed the usual procedure for this purpose.
1?) ionic relaxation
2?) SCF charge density calculation
3?) non-SCF DOS calculation with denser k-mesh
The whole DOS seems to be properly reproduced (compared to the literature).
Unfortunately, I always observed a little gap (from 0.2 to 0.4 eV) at the Fermi level whereas pristine graphene is known to be gapless. I increased the k-mesh grid until maximum accepted in VASP (45x45x1) but even the little gap is still present.
Why does this fact occur? Did I miss an important parameter that should be taken into account?
Thanks for your help.
Lian
I'm performing density of states calculations on pristine graphene unit cell, using the tetrahedron method (ISMEAR = -5).
I followed the usual procedure for this purpose.
1?) ionic relaxation
2?) SCF charge density calculation
3?) non-SCF DOS calculation with denser k-mesh
The whole DOS seems to be properly reproduced (compared to the literature).
Unfortunately, I always observed a little gap (from 0.2 to 0.4 eV) at the Fermi level whereas pristine graphene is known to be gapless. I increased the k-mesh grid until maximum accepted in VASP (45x45x1) but even the little gap is still present.
Why does this fact occur? Did I miss an important parameter that should be taken into account?
Thanks for your help.
Lian