LLRAUG: Difference between revisions
(This previously had the description of LBONE.) |
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on systems containing also (non-hydrogen) atoms from the top rows of the periodic | on systems containing also (non-hydrogen) atoms from the top rows of the periodic | ||
table (B, C, N, O, F), typically with short bonds, e.g. C<sub>2</sub>H<sub>2</sub>, where | table (B, C, N, O, F), typically with short bonds, e.g. C<sub>2</sub>H<sub>2</sub>, where | ||
effects up to a few ppm are possible. For such systems using standard potentials | effects up to a few ppm are possible. Effects are most significant for the H shift. For such systems using standard potentials | ||
typically introduces larger inaccuracies. The two-center contributions are calculated using | typically introduces larger inaccuracies. The two-center contributions are calculated using | ||
a multipole expansion of the current density that is represented on the plane wave grid.<ref name="dewijs:jcp:17"/> | a multipole expansion of the current density that is represented on the plane wave grid.<ref name="dewijs:jcp:17"/> |
Revision as of 09:53, 24 April 2019
LLRAUG = .TRUE. | .FALSE.
Default: LLRAUG = .FALSE.
Description: LLRAUG calculates the two-center contributions to the chemical shift tensor.
LLRAUG switches on two-center contributions to the NMR chemical shift tensor. These are contributions due to the augmentation currents in other PAW spheres than the sphere with the atom for which the shift tensor is calculated. Typically these contributions are safely neglected. It makes sense to include them for accurate calculations with hard potentials (*_h) on systems containing also (non-hydrogen) atoms from the top rows of the periodic table (B, C, N, O, F), typically with short bonds, e.g. C2H2, where effects up to a few ppm are possible. Effects are most significant for the H shift. For such systems using standard potentials typically introduces larger inaccuracies. The two-center contributions are calculated using a multipole expansion of the current density that is represented on the plane wave grid.[1]