Non-collinear magnetic structure and multipolar order in Eu2Ir2O7

Abstract

The magnetic properties of the pyrochlore iridate material Eu2Ir2O7 (5d5) have been studied based on the first principle calculations, where the crystal field splitting , spin-orbit coupling (SOC) λ and Coulomb interaction U within Ir 5d orbitals are all playing significant roles. The ground state phase diagram has been obtained with respect to the strength of SOC and Coulomb interaction U, where a stable anti-ferromagnetic ground state with all-in/all-out (AIAO) spin structure has been found. Besides, another anti-ferromagnetic states with close energy to AIAO have also been found to be stable. The calculated nonlinear magnetization of the two stable states both have the d-wave pattern but with a π/4 phase difference, which can perfectly explain the experimentally observed nonlinear magnetization pattern. Compared with the results of the non-distorted structure, it turns out that the trigonal lattice distortion is crucial for stabilizing the AIAO state in Eu2Ir2O7. Furthermore, besides large dipolar moments, we also find considerable octupolar moments in the magnetic states.