Hi! I want to get the band structure of a semi-metal. The pseudopotential is only scalar relativistic. I want to do calculations using the full relativistic pseudopotential. But I cannot find it online. I wonder does VASP has full relativistic pseudopotential? Thank you so much! Looking forward to hearing from you.
Best,
Jinghang
Question about the full relativistic pseudopotential
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Re: Question about the full relativistic pseudopotential
Dear jinghang_dai1,
The pseudopotentials are indeed generated using only the scalar relativistic equation. However, you are still able to perform relativistic calculations by activating the spin-orbit coupling in the INCAR.
Kind regards,
Pedro
The pseudopotentials are indeed generated using only the scalar relativistic equation. However, you are still able to perform relativistic calculations by activating the spin-orbit coupling in the INCAR.
Kind regards,
Pedro
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Re: Question about the full relativistic pseudopotential
Thanks for your reply! Even though I can activate the spin-orbit coupling, the calculations VASP performs are still based on a scalar relativistic equation, am I right? In short, there is no way to perform full relativistic calculations in VASP, right?
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Re: Question about the full relativistic pseudopotential
Dear jinghang_dai1,
No, VASP does not support full-relativistic calculations. Interactions like spin-orbit coupling are supported by including it as a perturbation to the Hamiltonian.
On a more elaborated note: I think you will find out that there are some papers, specially on materials like Bi2Se3, that there are some consequences from treating spin-orbit coupling as a perturbation vs exactly, both at DFT and GW level. See for instance https://doi.org/10.1103/PhysRevB.100.155147 and some related papers from the same authors. Please keep this in mind when analysing your results.
Kind regards,
Pedro
No, VASP does not support full-relativistic calculations. Interactions like spin-orbit coupling are supported by including it as a perturbation to the Hamiltonian.
On a more elaborated note: I think you will find out that there are some papers, specially on materials like Bi2Se3, that there are some consequences from treating spin-orbit coupling as a perturbation vs exactly, both at DFT and GW level. See for instance https://doi.org/10.1103/PhysRevB.100.155147 and some related papers from the same authors. Please keep this in mind when analysing your results.
Kind regards,
Pedro