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Expand NAO documentation

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joguenzl 2023-05-30 10:24:58 +02:00
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*** Numerical orbitals
Trexio supports numerical atom centered orbitals. The implementation is
based on the approach of FHI-aims [Reference to paper]. These orbitals are
based on the approach of FHI-aims [Blum, V. et al; Ab initio molecular
simulations with numeric atom-centered orbitals; Computer Physics
Communications 2009]. These orbitals are
defined by the atom they are centered on, their angular momentum and a
radial function $R_s$, which is of the form
\[
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Where $u_i(\mathbf{r})$ is numerically tabulated on a dense logarithmic
grid. It is constructed to vanish for any $\mathbf{r}$
outside of the grid. The reference points are stored in ~numgrid_r~
and ~numgrid_phi~. Additionaly, a separate spline for the gradient and Laplacian
can be stored in ~numgrid_grad~ and ~numgrid_lap~. The index of the first data point for
each shell is stored in ~numgrid_start~, the number of data points per spline
and ~numgrid_phi~. Additionaly, a separate spline for the first and second
derivative of $u(\mathbf{r})$ can be stored in ~numgrid_grad~ and ~numgrid_lap~.
Storing them in this form allows to calculate the actual gradients and
Laplacian easily as follows:
\[
\grad_{x_i} \phi = \frac{x_i}{r^2}\left u\prime(r) - \frac{u(r)}{r}\right
\]
\[
\Delta \phi = \frac{1}{r^3}\left x^2 u''(r) + \left3x^2-r^2\right \left \frac{u(r)}{r^2} - \frac{u'(r)}{r}\right \right
\]
The index of the first data point for each shell is stored in
~numgrid_start~, the number of data points per spline
is stored in ~numgrid_size~ for convenience.
What kind of spline is used can be provided in the ~interpolator_kind~ field.