Sample directory adf/CO_model
For property calculations, xc potentials with asymptotically correct (-1/r) behavior outside the molecule, the results tend to be superior to regular LDA or GGA calculations. This is especially true for small molecules and for properties that depend heavily on the proper description of the outer region of the molecule. In the example, all-electron basis sets are used. This is mandatory for the SAOP potential.
$ADFBIN/adf -n1 <<EOR create C $ADFRESOURCES/TZ2P/C end input EOR mv TAPE21 t21.C $ADFBIN/adf -n1 <<EOR create O $ADFRESOURCES/TZ2P/O end input EOR mv TAPE21 t21.O
In the next example, excitation energies are calculated with the GRACLB potential. This potential requires one number as argument: the experimental ionization potential in atomic units. This number can be either based on an experimental value, or on previous GGA total energy calculations.
$ADFBIN/adf <<EOR title CO excitations grac potential INTEGRATION 6.0 XC Model GRACLB 0.515 End Atoms O 0 0 0 C 1.128205364 0 0 end Excitation Lowest 10 Onlysing End Fragments O t21.O C t21.C End end input EOR rm TAPE21 logfile
The same calculation with the SAOP xc potential would differ in the XC block only:
XC Model SAOP End
SAOP depends on the orbitals which makes it more expensive to evaluate than GRAC for large molecules.
