J-pseudospin states and the crystal field of cubic systems

Abstract

Theory of J-pseudospin for f element in cubic environment is developed. By fulfilling the symmetry requirements and the adiabatic connection to atomic limit, the crystal-field states are uniquely transformed into J-pseudospin states. In terms of the pseudospin operators, both the total angular momentum and the crystal-field Hamiltonian contain higher-rank tensor terms than the traditional ones do, which means the present framework naturally include the effects such as the covalency and J-mixing beyond the f-shell model. Combining the developed theory with ab initio calculations, the J-pseudospin states for Nd3+ and Np4+ ions in octahedral sites of insulators are derived.