Novel Magnetism from the Spin-Orbit-Coupling Strength Alternation

Wei-Guo Yin; X. Liu; A.M. Tsvelik; M.P.M. Dean; M.H. Upton; Jungho Kim; D. Casa; A. Said; T. Gog; T.F. Qi; G. Cao; J.P. Hill

Novel Magnetism from the Spin-Orbit-Coupling Strength Alternation

ORAL

Abstract

We show that bringing close two magnetic ions with strong and weak spin-orbit coupling, respectively, can yield strong ferromagnetic anisotropy from antiferromagnetic superexchange. We applied this novel exchange anisotropy generating mechanism to explain the unique magnetism of the copper-iridium oxide Sr$_3$CuIrO$_6$ containing chains of alternating Cu(II) and Ir(IV) ions. The calculated large-gap spin excitation spectrum agrees well with the Ir $L_3$ edge resonant inelastic x-ray scattering experiment. Our findings point to novel magnetic behavior to be expected in mixed $3d-5d$ transition-metal systems via exchange pathways that are absent in pure $3d$ or $5d$ systems. Reference: W.-G. Yin et al., PRL 111, 057202 (2013).

^*Work supported by the US Department of Energy under Contract No. DE-AC02-98CH10886 and DE-AC02-06CH11357 and the NSF through Grant No. DMR-0856234.

March 6, 2014, 2:30 PM – March 6, 2014, 2:42 PM

Authors

Wei-Guo Yin
- Brookhaven National Laboratory
X. Liu
- Brookhaven National Laboratory
A.M. Tsvelik
- Brookhaven National Laboratory
M.P.M. Dean
- Brookhaven National Laboratory
M.H. Upton
- Argonne National Laboratory
Jungho Kim
- Argonne National Laboratory
D. Casa
- Argonne National Laboratory
A. Said
- Argonne National Laboratory
T. Gog
- Argonne National Laboratory
T.F. Qi
- University of Kentucky
G. Cao
- University of Kentucky
J.P. Hill
- Brookhaven National Laboratory