A Contemporary Model Description of Magnetism

Abstract

A treatment of many-electron polar and s-d(f) exchange models is carried out in connection with the development of the theory of magnetism of transition and rare-earth metals, as well as their compounds. Particular emphasis is placed on the derivation of the many-electron Heisenberg, Hubbard, Anderson and t-J models, as well as the internal relationship between them. Among the topics discussed are many-electron approaches in describing systems of d- and f-electrons, atomic representation of Hubbard's X-operators, slave-particle representations, the problem of strong itinerant magnetism and the formation of local moments, the role of non-quasiparticle (incoherent states). The application of these concepts to strongly correlated systems, in particular, to half-metallic ferromagnets and Kondo lattices, is discussed. A comparison is performed with modern field-theoretical and topological approaches.