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Trying to run a hybrid calculation on a systems containing Lanthanide elements (specifically Dy and Er) I ran into an error:
internal error in SET_CORE_WF: core electrons incorrect
Apparently, this is because some of the lanthanide potentials are not compatible with hybrid DFT (https://cms.mpi.univie.ac.at/vasp-forum/viewtopic.php?t=11307). The default Dy and Er POTCARs are Dy_3 and Er_3, instead we should be using just Dy and Er.
Interestingly, my calculation with Pr ran fine even though the POTCAR used was Pr_3. Some testing to see which POTCARs are compatible with hybrid DFT is needed.
The text was updated successfully, but these errors were encountered:
I'm a bit confused by that thread -- if you use, say, the Gd_3 POTCARs are your calculations charged-balanced? It says there are 18 electrons for the Gd and 9 electrons for the Gd_3. Either way that seems short an electron? Also the Gd POTCAR we're using is now almost 20 years old . . . (I understand your question is about Dy/Er)
@utf did you find out any additional info on this? Hoping to start a conversation here about modernizing our pseudopotential choices, so this might be helpful :)
Trying to run a hybrid calculation on a systems containing Lanthanide elements (specifically Dy and Er) I ran into an error:
Apparently, this is because some of the lanthanide potentials are not compatible with hybrid DFT (https://cms.mpi.univie.ac.at/vasp-forum/viewtopic.php?t=11307). The default Dy and Er POTCARs are
Dy_3
andEr_3
, instead we should be using justDy
andEr
.Interestingly, my calculation with Pr ran fine even though the POTCAR used was
Pr_3
. Some testing to see which POTCARs are compatible with hybrid DFT is needed.The text was updated successfully, but these errors were encountered: