The unrestricted natural orbital-restricted active space method: methodology and implementation

by Kozlowski, P. M.; Pulay, P.

The full configuration interaction method in the space of fractionally occupied unrestricted natural orbitals (UNO-CAS method) is extended to excited states as well, as to strongly correlated and reactive systems with large active spaces. This is accomplished by using restricted active space (RAS) wave functions introduced by Olsen et al. [(1988) J Chem Phys 89: 2185] and using the UNOs without the expensive orbital optimization step. In RAS, the space of active orbitals is subdivided into three groups: a group with essentially doubly occupied orbitals (RAS1) the usual CAS space (RAS2), and a space with weakly occupied active orbitals (RAS3). We select these spaces on the basis of the occupation numbers of the UNOs. All possible electron distributions are allowed in the usual CAS space, but the number of vacancies is limited in RAS1 and the number of electrons is limited in RAS3. We discuss an efficient algorithm for generating a RAS wave function. This is based on the Handy-Knowles determinantal expansion with an addressing scheme adopted for the restricted expansion. Results for both ground and excited states of azulene and free base porphyrin are presented.

Journal
Theoretical Chemistry Accounts
Volume
100
Issue
1-4
Year
1998
Start Page
12-20
URL
https://dx.doi.org/10.1007/s002140050361
ISBN/ISSN
1432-2234; 1432-881X
DOI
10.1007/s002140050361