Explicit and implicit multi-center integrations

We present truncated expansions of multicenter one‐electron nuclear attraction and two‐electron repulsion integrals over localized basis functions in terms of one‐ and two‐center integrals of “Coulomb,” “exchange,” and “hybrid” type. Two variants are discussed: the “Explicit Multi‐center Integrations” and the “Implicit Multi‐Center Integrations” (abbreviated as “EMCI” and “IMCI”, respectively). While EMCI also deals with individual integrals, the IMCI option is the more appealing one: it enables us to evaluate the entire matrix elements of “Restricted Hartree–Fock”‐type in a very effective and chemically meaningful way. Due to the diatomic nature of our expansions, integrations over “Slater‐Type Orbitals” become well‐feasible, too. © 2012 Wiley Periodicals, Inc. Central to most quantum chemistry methods is the evaluation of ``restricted'' Fock‐matrix elements over basis functions localized at nuclear centers. Here, it is shown how multi‐center one‐electron nuclear attraction and two‐electron repulsion integrals can be efficiently expanded in terms of one and two‐center integrals of Coulomb,” exchange,” and hybrid type.