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Optimized partitioning in perturbation theory: Comparison to related approaches (2000)

Surján, P. R. ; Szabados, Á.

College Park, Md. : American Institute of Physics (AIP)

The Journal of Chemical Physics 112 (2000), S. 4438-4446

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ISSN: 1089-7690

Source: AIP Digital Archive

Topics: Physics , Chemistry and Pharmacology

Notes: A generalized Epstein–Nesbet type perturbation theory is introduced by a unique, "optimal" determination of level shift parameters. As a result, a new partitioning emerges in which third order energies are identically zero, most fifth order terms also vanish, and low (2nd, 4th) order corrections are quite accurate. Moreover, the results are invariant to unitary transformations within the zero order excited states. Applying the new partitioning to many-body perturbation theory, the perturbed energies exhibit appealing features: (i) they become orbital invariant if all level shifts are optimized in an excitation subspace; and (ii) meet the size-consistency requirement if no artificial truncations in the excitation space is used. As to the numerical results, low order corrections do better than those of Møller–Plesset partitioning. At the second order, if the single determinantal Hartree–Fock reference state is used, the CEPA-0 (=LCCD) energies are recovered. Higher order corrections provide a systematic way of improving this scheme, numerical studies showing favorable convergence properties. The theory is tested on the anharmonic linear oscillator and on the electron correlation energies of some selected small molecules. © 2000 American Institute of Physics.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1063/1.481006

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Optical rotatory strength calculation by evaluating the gradient matrix through the equation of motion (1980)

Surján, P. R. ; Kertész, M.

Springer

Theoretical chemistry accounts 55 (1980), S. 103-115

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ISSN: 1432-2234

Keywords: Optical rotatory strength ; Linderberg's equation of motion

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract A straightforward generalization of Linderberg's equation-of-motion-based formula for the matrix elements of the linear momentum operator is proposed. The essential feature of the modification is the abandonment of the zero differential overlap (ZDO) approximation for the electric transition integrals. It is expected that this new formula gives better transition moments and, consequently, better optical rotatory strength values. The results of this modification are analysed numerically for the rotatory strengths of the twisted hydrogen peroxide and for the 1,6-diazaspiro[4,4]-nonane-2,7-dione, C7H10N2O2, molecule, using a CNDO Hamiltonian. For both systems a definitive improvement of calculated rotatory strengths resulted.