Microscopic Theory of 3 Quadrupole Ordering in Pr Compounds on the Basis of a j-j Coupling Scheme

Abstract

Toward the understanding of incommensurate 3 quadrupole ordering in PrPb3, we develop a microscopic theory of multipole ordering in f2-electron systems from an itinerant picture on the basis of a j-j coupling scheme. For this purpose, we introduce the 7-8 Hubbard model on a simple cubic lattice with the effective interactions that induce local 3 states. By evaluating multipole susceptibility in a random phase approximation, we find that the hybridization between 7 and 8 orbitals plays a key role in the emergence of 3 quadrupole ordering. We also emphasize that 3 quadrupole ordering can be understood from the concept of multipole nesting, in which the Fermi surface region with large 8 orbital density should be nested on the area with a significant 7 component when the positions of the Fermi surfaces are shifted by the ordering vector. This concept cab be intuitively understood from the fact that local 3 doublets are mainly composed of two singlets between 8 and 7 orbitals. Finally, we discuss the possible relevance of the present theory to the experimental results of PrPb3 and point out some future problems in this direction of research.