Lattice dynamics and structural transition of the hyperhoneycomb iridate β-Li2IrO3 investigated by high-pressure Raman scattering
Abstract
We report a polarized Raman scattering study of the lattice dynamics of β-Li2IrO3 under hydrostatic pressures up to 7.62 GPa. At ambient pressure, β-Li2IrO3 exhibits the hyperhoneycomb crystal structure and a magnetically ordered state of spin-orbit entangled Jeff = 1/2 moments that is strongly influenced by bond-directional (Kitaev) exchange interactions. At a critical pressure of ~ 4.1 GPa, the phonon spectrum changes abruptly consistent with the reported structural transition into a monoclinic, dimerized phase. A comparison to the phonon spectra obtained from density functional calculations shows reasonable overall agreement. The calculations also indicate that the high-pressure phase is a nonmagnetic insulator driven by the formation of Ir-Ir dimer bonds. Our results thus indicate a strong sensitivity of the electronic properties of β-Li2IrO3 to the pressure-induced structural transition.
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