Testing the validity of the strong spin-orbit-coupling limit for octahedrally coordinated iridates in a model system Sr$_3$CuIrO$_6$

A. M. Tsvelik; A. Said; D. Casa; G. Cao; Jeroen van den Brink; J. P. Hill; Jungho Kim; L. Hozoi; M. H. Upton; M. P. M. Dean

arxiv: 1209.5294 · v1 · pith:L74CWTXXnew · submitted 2012-09-24 · ❄️ cond-mat.str-el

Testing the validity of the strong spin-orbit-coupling limit for octahedrally coordinated iridates in a model system Sr₃CuIrO₆

X. Liu , Vamshi M. Katukuri , L. Hozoi , Wei-Guo Yin , M. P. M. Dean , M. H. Upton , Jungho Kim , D. Casa

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A. Said T. Gog T. F. Qi G. Cao A. M. Tsvelik Jeroen van den Brink J. P. Hill

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classification ❄️ cond-mat.str-el

keywords strongcalculationscuirolimitmathsfmodelrixsspin-orbit-coupling

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The electronic structure of Sr$_3$CuIrO$_6$, a model system for the 5d Ir ion in an octahedral environment, is studied through a combination of resonant inelastic x-ray scattering (RIXS) and theoretical calculations. RIXS spectra at the Ir L$_3$-edge reveal an Ir $t_{2g}$ manifold that is split into three levels, in contrast to the expectations of the strong spin-orbit-coupling limit. Effective Hamiltonian and $ab inito$ quantum chemistry calculations find a strikingly large non-cubic crystal field splitting comparable to the spin-orbit coupling, which results in a strong mixing of the $j_{\mathsf{eff}}=1/2$ and $j_{\mathsf{eff}}=3/2$ states and modifies the isotropic wavefunctions on which many theoretical models are based.

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Testing the validity of the strong spin-orbit-coupling limit for octahedrally coordinated iridates in a model system Sr₃CuIrO₆

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