Resonant inelastic x-ray scattering spectra in the hyperhoneycomb iridate β-Li2IrO3: First principles calculations
Abstract
We studied the electronic structure of β-Li2IrO3 insulator within the density-functional theory using the generalized gradient approximation with taking into account strong Coulomb correlations in the framework of the fully relativistic spin-polarized Dirac linear muffin-tin orbital band-structure method. The β-Li2IrO3 undergoes a pressure-induced structural and magnetic phase transitions at Pc 4 GPa with symmetry lowering to the monoclinic C2/c. The structural phase transition is accompanied by the formation of Ir2 dimers on the zigzag chains, with an Ir-Ir distance of 2.66~, even shorter than that of metallic Ir. The strong dimerization stabilizes the bonding molecular-orbital state, leads to the collapse of the magnetism and opens the energy gap with a concomitant electronic phase transition from a Mott insulator to band insulator. The resonant inelastic x-ray scattering spectra (RIXS) at the Ir L3 edge were investigated theoretically from first principles. The calculated results are in good agreement with the experimental data. We show that the the drastic reconstruction of the RIXS spectral peak at 0.7 eV associated with the structural Fddd → C2/c phase transition at Pc can be related to disappearing of the Coulomb correlations in the high-pressure C2/c phase
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