posted on 2020-12-18, 13:39authored byTommaso Giovannini, Henrik Koch
We
present a novel energy-based localization procedure able to
localize molecular orbitals into predefined spatial regions. The method
is defined in a multiscale framework based on the multilevel Hartree–Fock
approach. In particular, the system is partitioned into active and
inactive fragments. The localized molecular orbitals are obtained
maximizing the repulsion between the two fragments. The method is
applied to several cases including both conjugated and non-conjugated
systems. Our multiscale approach is compared with reference values
for both ground-state properties, such as dipole moments, and local
excitation energies. The proposed approach is useful to extend the
application range of high-level electron correlation methods. In fact,
the reduced number of molecular orbitals can lead to a large reduction
in the computational cost of correlated calculations.