Orbital interaction in one-dimensional magnetic compounds

Abstract

Exchange interaction in ring chains of N transition ions with n unpaired electrons per ion is investigated. The study is focused on the case where N becomes very great, i.e. on the case of one-dimensional magnetic compounds. The main results are the following: (i) An orbital justification to the use of the phenomenological spin hamiltonian of the Heisenberg-Dirac-Van Vleck model is given. (ii) The exchange interaction parameter J is expressed as a function of orbital integrals related to the real mechanism of the phenomenon. The key expression is in which S_μμ is the overlap integral between two magnetic orbitals of the same symmetry centred on nearest-neighbour transition ions, Δ_μ is the width of the molecular orbital band built from the magnetic orbitals of symmetry μ for the spectroscopic term of highest spin multiplicity. Finally J _μν is the two-electron exchange integral between magnetic orbitals of symmetry μ and ν respectively, centred on nearest-neighbour ions.