LVGVCALC: Difference between revisions

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{{TAGDEF|LVGVCALC|.TRUE. {{!}} .FALSE. | .TRUE.}}
{{TAGDEF|LVGVCALC|.TRUE. {{!}} .FALSE. | .TRUE.}}
 
 
WARNING: under construction.
Description: {{TAG|LVGVCALC}} switches on calculation of the ''vGv'' expression for the orbital magnetic susceptibility.
Description: {{TAG|LVGVCALC}} calculates the two-center contributions to the chemical shift tensor.


{{TAG|LVGVCALC}} is available as of VASP.6.4.0.
{{TAG|LVGVCALC}} is available as of VASP.6.4.0.
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When performing a chemical shift calculation the standard ''pGv'' susceptibility<ref name="yates:prb:07"/> is calculated and used in the calculation of the CSA tensor. When {{TAG|LVGVCALC}} is true, the magnetic susceptibility is also calculated with the ''vGv'' approximation. Whether the ''vGv'' or ''pGv'' result is applied in the calculation of the CSA tensor is controlled by {{TAG|LVGVAPPL}}.
When performing a chemical shift calculation the standard ''pGv'' susceptibility is calculated and used in the calculation of the CSA tensor {{Cite|yates:prb:2007}}. When {{TAG|LVGVCALC}} is true, the magnetic susceptibility is also calculated with the ''vGv'' approximation. {{TAG|LVGVAPPL}} determines whether the ''vGv'' or ''pGv'' result is applied in the calculation of the <math>\mathbf{G=0}</math> contribution to the CSA tensor.


The ''vGv'' expression for the orbital susceptibility was introduced by d'Avezac ''et al.''<ref name="avezac:prb:01"/>
The ''vGv'' expression for the orbital susceptibility was introduced by d'Avezac ''et al.'' {{Cite|avezac:prb:2007}}.
In VASP its ultra-soft generalization is used.<ref name="dewijs:jcp:18"/>
In VASP its ultra-soft generalization is used {{Cite|dewijs:havenith:jcp:2021}}.


== Related tags and articles ==
== Related tags and articles ==
{{TAG|LCHIMAG}}
{{TAG|LCHIMAG}}, {{TAG|LVGVAPPL}}


== References ==
== References ==
<references>
<ref name="yates:prb:07">[http://link.aps.org/doi/10.1103/PhysRevB.76.024401 J. R. Yates, C. J. Pickard, F. Mauri, Phys. Rev. B 76, 024401 (2007).]</ref>
<ref name="avezac:prb:01">[http://link.aps.org/doi/10.1103/PhysRevB.76.165122 M. Avezac, N. Marzari, F. Mauri, Phys. Rev. B 76, 165122 (2007).]</ref>
<ref name="dewijs:jcp:18">[http://aip.scitation.org/doi/10.1063/5.0069637 G.A. de Wijs, G. Kresse, R. W. A. Havenith, M. Marsman, J. Chem. Phys. 155, 234101 (2021).]</ref>
</references>
----


[[Category:INCAR tag]][[Category:NMR]][[Category:Chemical shifts]]
[[Category:INCAR tag]][[Category:NMR]]

Latest revision as of 15:51, 3 March 2025

LVGVCALC = .TRUE. | .FALSE.
Default: LVGVCALC = .TRUE. 

Description: LVGVCALC switches on calculation of the vGv expression for the orbital magnetic susceptibility.

LVGVCALC is available as of VASP.6.4.0.

When performing a chemical shift calculation the standard pGv susceptibility is calculated and used in the calculation of the CSA tensor [1]. When LVGVCALC is true, the magnetic susceptibility is also calculated with the vGv approximation. LVGVAPPL determines whether the vGv or pGv result is applied in the calculation of the [math]\displaystyle{ \mathbf{G=0} }[/math] contribution to the CSA tensor.

The vGv expression for the orbital susceptibility was introduced by d'Avezac et al. [2]. In VASP its ultra-soft generalization is used [3].

Related tags and articles

LCHIMAG, LVGVAPPL

References

  1. J. R. Yates, C. J. Pickard, and F. Mauri, Calculation of NMR chemical shifts for extended systems using ultrasoft pseudopotentials, Phys. Rev. B 76, 024401 (2007).
  2. M. d'Avezac, N. Marzari, and F. Mauri, Spin and orbital magnetic response in metals: Susceptibility and NMR shifts, Phys. Rev. B 76, 165122 (2007).
  3. G.A. de Wijs, G. Kresse, R. W. A. Havenith, and M. Marsman, Spin and orbital magnetic response in metals: Susceptibility and NMR shifts, J. Chem. Phys. 155, 234101 (2021).
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