LVGVCALC: Difference between revisions

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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<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}}.


The ''vGv'' expression for the orbital susceptibility was introduced Ref.<ref name="avezac:prb:01"/>.
The ''vGv'' expression for the orbital susceptibility was introduced by d'Avezac ''et al.''<ref name="avezac:prb:01"/>


== Related tags and articles ==
== Related tags and articles ==

Revision as of 13:13, 16 February 2023

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

WARNING: under construction. Description: LVGVCALC calculates the two-center contributions to the chemical shift tensor.


When performing a chemical shift calculation the standard pGv susceptibility[1] is calculated and used in the calculation of the CSA tensor. When 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 LVGVAPPL.

The vGv expression for the orbital susceptibility was introduced by d'Avezac et al.[2]

Related tags and articles

LCHIMAG

References