Sample directory: adf/e_Au2_ZORA/
Another relativistic geometry optimization, now with the ZORA formalism. The build-up is quite similar to the RelGO_AuH case: DIRAC calculations for the involved atoms to get relativistic core potentials, Create runs and finally the molecular optimization run. In between the Create runs and the molecular optimization run, a single-atom Spin-Orbit calculation is carried out. The Spin-Orbit corrections are not available in optimization calculations, so in the final molecular run, the scalar (ZORA) relativistic terms are used.
$ADFBIN/adf << eor Title Au relativistic spinorbit Integration 6.5 Atoms Au 0 0 0 End Fragments Au t21.Au End XC GGA Becke Perdew End Relativistic SpinOrbit ZORA Corepotentials t12.rel end input eor
Since only one type of atom is used, the CorePotentials key can be used as simple key: the data block is not necessary since the program takes (by default) the first section on the TAPE12 file for the first (here: only) atom type in the calculation.
$ADFBIN/adf << eor Title Au2 relativistic optimization: scalar ZORA Integration 6.5 Atoms Zmat Au 0 0 0 Au 1 0 0 2.5 End Fragments Au t21.Au End XC GGA Becke Perdew End Relativistic scalar ZORA CorePotentials t12.rel Geometry convergence grad=1e-4 End End Input eor
