Sala, MM; Rossi, M; Boseggia, S; Akimitsu, J; Brookes, NB; Isobe, M; Minola, M; ... Monaco, G; + view all Sala, MM; Rossi, M; Boseggia, S; Akimitsu, J; Brookes, NB; Isobe, M; Minola, M; Okabe, H; Ronnow, HM; Simonelli, L; McMorrow, DF; Monaco, G; - view fewer (2014) Orbital occupancies and the putative j(eff)=1/2 ground state in Ba2IrO4: A combined oxygen K-edge XAS and RIXS study. Physical Review B , 89 (12) , Article 121101. 10.1103/PhysRevB.89.121101.

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Abstract

The nature of the electronic ground state of Ba2IrO4 has been addressed using soft x-ray absorption and inelastic scattering techniques in the vicinity of the oxygen K edge. From the polarization and angular dependence of x-ray absorption spectroscopy (XAS) we deduce an approximately equal superposition of xy, yz, and zx Ir4+ 5d orbitals. By combining the measured orbital occupancies, with the value of the spin-orbit coupling provided by resonant inelastic x-ray scattering (RIXS), we estimate the crystal field splitting associated with the tetragonal distortion of the IrO6 octahedra to be small, Δ≈50(50) meV. We thus conclude definitively that Ba2IrO4 is a close realization of a spin-orbit Mott insulator with a jeff=1/2 ground state, thereby overcoming ambiguities in this assignment associated with the interpretation of x-ray resonant scattering experiments.

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