On the formulation of spin-free quantum chemistry

## Abstract The representation of an __N__‐electron Schrödinger Hamiltonian on an orthonormal, spin‐free (freon) orbital product space is exactly modeled by a second‐degree polynomial in the infinitesimal generators of the unitary group. Symmetry adaptation of the orbital product space with respect

## Abstract We have obtained the Bloch spin wave dispersion formula using the methods of spin‐free quantum chemistry. The spin‐free eigenvectors are waves in spin‐free space. This development makes the point that Bloch spin waves are dynamically spin‐free. The neutron diffraction transition moment

## Abstract We discuss the calculation of quasielastic critical neutron scattering for systems defined by a spin‐free Hamiltonian. The system dependent property which determines the critical scattering is the thermal average of a spin‐free operator called the general unpaired electron correlation o

## Abstract The two‐particle spatial density matrix components introduced by McWeeny are expressed in terms of the Fock coordinate wave function, which is constructed from an arbitrary function of __N__ spatial coordinates. The integral relations for these components are verified. The necessary mat

## Abstract The assignment of the alternancy quantum number to the __N__‐electron states of neutral alternant hydrocarbons is discussed within the spin‐free unitary group formulation. Alternancy is defined with respect to both molecular graphs and molecular orbital eigenvalues. The properties of th