Pointwise bounds for the electron density and estimates of an expectation value for one-electron systems

In this letter the mmpIemen%xy character of two recently proposed methods to obtain pointwise estimates for cigenfunctions of one-electron systems is pointed out. An ikstrarive example is discussed and a criterion for the k\_curacy of opproximare wavefunctions is q uestioned. This results in a molec

## Abstract The reduction of the electronic Schrodinger equation or its calculating algorithm from 4__N__‐dimensions to a (nonlinear, approximate) density functional of three spatial dimension one‐electron density for an __N__‐electron system, which is tractable in the practice, is a long desired g

A set of procedures for rapid calculation of quantum molecular similarities from a& initio wave functions is discussed. In all cases a density fitting is carried out to eliminate the need of calculating costly four-centered integrals. It is proved that this methodology can be applied to large system

The dependence of the intramolecular charge transfer through the cT-electron systems of substituted hydrocarbons on the spatial arrangement of the X-C, and C,-C, bonds has been studied using the perturbation theory for the one-electron density matrix (DM). Analytical expressions for the populations

Electron density contours (O-002 XI) obtained from FSGO model warefuncticns are used to estunate "naturally partitioned" length (L,) and width <Wp). The quamity ,5.,/W, -1 is shoa n to be proportion& to experimental molecular anisotropy (K) of polarizability. Predicted ili'l mlues xe used to estimat

The problem of deciding whWt of three equivalent forms of ekcrric dipok transition probabZ!ities is tl?e most "proper" or "accurate" to us-e, has been discussed in secant prtpe,s from vzuious potits of view. Here we examine this question and also cer!in conditions which haye to be saWied far the thr