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4.9 Unconventional SCF Calculations

4.9.1 Polarized Atomic Orbital (PAO) Calculations

(November 19, 2024)

Polarized atomic orbital (PAO) calculations are an interesting unconventional SCF method, in which the molecular orbitals and the density matrix are not expanded directly in terms of the basis of atomic orbitals. Instead, an intermediate molecule-optimized minimal basis of polarized atomic orbitals (PAOs) is used. 743 Lee M. S., Head-Gordon M.
J. Chem. Phys.
(1997), 107, pp. 9085.
Link
The polarized atomic orbitals are defined by an atom-blocked linear transformation from the fixed atomic orbital basis, where the coefficients of the transformation are optimized to minimize the energy, at the same time as the density matrix is obtained in the PAO representation. Thus a PAO-SCF calculation is a constrained variational method, whose energy is above that of a full SCF calculation in the same basis. However, a molecule optimized minimal basis is a very compact and useful representation for purposes of chemical analysis, and it also has potential computational advantages in the context of MP2 or local MP2 calculations, as can be done after a PAO-HF calculation is complete to obtain the PAO-MP2 energy.

PAO-SCF calculations tend to systematically underestimate binding energies (since by definition the exact result is obtained for atoms, but not for molecules). In tests on the G2 database, PAO-B3LYP/6-311+G(2df,p) atomization energies deviated from full B3LYP/6-311+G(2df,p) atomization energies by roughly 20 kcal/mol, with the error being essentially extensive with the number of bonds. This deviation can be reduced to only 0.5 kcal/mol with the use of a simple non-iterative second order correction for “beyond-minimal basis” effects. 744 Lee M. S., Head-Gordon M.
Comp. Chem.
(2000), 24, pp. 295.
Link
The second order correction is evaluated at the end of each PAO-SCF calculation, as it involves negligible computational cost. Analytical gradients are available using PAOs, to permit structure optimization. For additional discussion of the PAO-SCF method and its uses, see the references cited above.

Calculations with PAOs are determined controlled by the following $rem variables. PAO_METHOD = PAO invokes PAO-SCF calculations, while the algorithm used to iterate the PAOs can be controlled with PAO_ALGORITHM.

PAO_ALGORITHM

PAO_ALGORITHM
       Algorithm used to optimize polarized atomic orbitals (see PAO_METHOD)
TYPE:
       INTEGER
DEFAULT:
       0
OPTIONS:
       0 Use efficient (and riskier) strategy to converge PAOs. 1 Use conservative (and slower) strategy to converge PAOs.
RECOMMENDATION:
       None

PAO_METHOD

PAO_METHOD
       Controls evaluation of polarized atomic orbitals (PAOs).
TYPE:
       STRING
DEFAULT:
       EPAO For local MP2 calculations Otherwise no default.
OPTIONS:
       PAO Perform PAO-SCF instead of conventional SCF. EPAO Obtain EPAOs after a conventional SCF.
RECOMMENDATION:
       None