General formulation of the first-order perturbation graph theory

The second-order multireference perturbation theory employing multiple partitioning of the many-electron Hamiltonian into a zero-order part and a perturbation is formulated in terms of many-body diagrams. The essential difference from the standard diagrammatic technique of Hose and Kaldor concerns t

f ust-order rclatlvlstlc calculations give ;1 rclatlve error m the estimate of the total correctlon whtch mcreases tie 2' Recent &St-order relatxbtstic calcufatrons wzth the

Far atom-rigid rotor scattering in the limit of high initial rotor states, it is shown rltlr the first-order approximation of the CPS treatment is cquivalen~ to first-order fime-depcndcnt prrcurbation theory with the esrumplion of curved, planar cr;ljectories.

We recently proposed (parts I and II' of this series of publications) a new method of infinite subsummation in the Mlrller-Plesset perturbation series with the objective of "effecting wnvergenee of otherwise divergent series". In the present work we undertake to study the importance of a shift of un

The exact analytic first-order wavefunction of an H atom in the field of a proton obtained from the unsymmetrized perturbation theory as calculated in 1957 by Dalgamo and Lynn is used to calculate the exchange energy of Hz with the Holstein-Herring method. The asymptotic exchange energy obtained fro