PAW calculation for isolated atom
Posted: Sat Nov 24, 2012 1:26 am
Hi all,
When performing total energy and density of states calculations for isolated atoms using PAW datasets, can I know what is the optimal box size (acell) to use? According to tutorial 1, acell of 10 Bohr radius is used for hydrogen, but it seems to take a different value for a different element in another tutorial. I also found that when performing a spin-polarized calculation with an isolated atom, choosing an optimum box size yields electron orbital energy levels that are degenerate for the spin up and down cases, while for all other sizes the spin up and down energy levels are not degenerate. Does this mean that the optimum box size to use corresponds to the case where the spin up and down cases are degenerate in energy, for a non-magnetic material?
Thanks a lot!
Yesheng
When performing total energy and density of states calculations for isolated atoms using PAW datasets, can I know what is the optimal box size (acell) to use? According to tutorial 1, acell of 10 Bohr radius is used for hydrogen, but it seems to take a different value for a different element in another tutorial. I also found that when performing a spin-polarized calculation with an isolated atom, choosing an optimum box size yields electron orbital energy levels that are degenerate for the spin up and down cases, while for all other sizes the spin up and down energy levels are not degenerate. Does this mean that the optimum box size to use corresponds to the case where the spin up and down cases are degenerate in energy, for a non-magnetic material?
Thanks a lot!
Yesheng