Spin-orbital order and excitations in 3d4, 4d4, and 5d4 systems: Application to BaFeO3, Sr2RuO4, Sr2YIrO6, and K2OsCl64

Abstract

Evolution of composite spin-orbital order and coupled spin-orbital excitations is studied in a variety of d4 systems with n=4 electrons in the t2g orbital sector using the generalised self-consistent + fluctuations approach for a realistic interacting-electron model. Within this unified approach, applications are discussed to compounds with 3d, 4d, 5d transition-metal ions such as BaFeO3 ( Fe4+), Ca2RuO4 ( Ru4+), Sr2RuO4 ( Ru4+), Sr2YIrO6 ( Ir5+), and K2OsCl6 ( Os4+). Continuous interpolation from the nominally S=1 antiferromagnetic order in Ca2RuO4 (strong crystal field, intermediate spin-orbit coupling (SOC) and Coulomb interaction) to the J=0 state relevant for 5d4 compounds (strong SOC, weak Coulomb interaction) and to the half-metallic ferromagnetic order when crystal field is negligible as in BaFeO3 (weak SOC, strong Coulomb interaction) and Sr2RuO4 (intermediate SOC and Coulomb interaction) provides new fundamental insights into the magnetism of spin-orbit coupled systems.

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