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Correlation energy nondynamic

The valence correlation component of TAE is the only one that can rival the SCF component in importance. As is well known by now (and is a logical consequence of the structure of the exact nonrelativistic Bom-Oppenheimer Hamiltonian on one hand, and the use of a Hartree-Fock reference wavefunction on the other hand), molecular correlation energies tend to be dominated by double excitations and disconnected products thereof. Single excitation energies become important only in systems with appreciable nondynamical correlation. Nonetheless, since the number of single-excitation amplitudes is so small compared to the double-excitation amplitudes, there is no point in treating them separately. [Pg.38]

The major advantage of a 1-RDM formulation is that the kinetic energy is explicitly defined and does not require the construction of a functional. The unknown functional in a D-based theory only needs to incorporate electron correlation. It does not rely on the concept of a fictitious noninteracting system. Consequently, the scheme is not expected to suffer from the above mentioned limitations of KS methods. In fact, the correlation energy in 1-RDM theory scales homogeneously in contrast to the scaling properties of the correlation term in DPT [14]. Moreover, the 1-RDM completely determines the natural orbitals (NOs) and their occupation numbers (ONs). Accordingly, the functional incorporates fractional ONs in a natural way, which should provide a correct description of both dynamical and nondynamical correlation. [Pg.389]

Figure 11. Schematic representation of the partitioning of the potential energy into extended Hartree-Fock (EHF), including the nondynamical correlation energy, and dynamical correlation (corr). See text. Figure 11. Schematic representation of the partitioning of the potential energy into extended Hartree-Fock (EHF), including the nondynamical correlation energy, and dynamical correlation (corr). See text.
The 7t-electron correlation energy E. in planar heteroatomic molecules follows simple additivity rules. The nondynamical component (ND),i of aromatic compounds is lower than that of their open-chain counterparts and (in comparison with benzene) regarded as another useful aromaticity index <2001GPH(269)11>. [Pg.13]

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See also in sourсe #XX -- [ Pg.525 ]



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Correlation energy

Nondynamic correlation

Nondynamical correlation energy

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