Optical signature of the pressure-induced dimerization in the honeycomb iridate α-Li2IrO3

Abstract

We studied the effect of external pressure on the electrodynamic properties of α-Li2IrO3 single crystals in the frequency range of the phonon modes and the Ir d-d transitions. The abrupt hardening of several phonon modes under pressure supports the onset of the dimerized phase at the critical pressure Pc=3.8 GPa. With increasing pressure an overall decrease in spectral weight of the Ir d-d transitions is found up to Pc. Above Pc, the local (on-site) d-d excitations gain spectral weight with increasing pressure, which hints at a pressure-induced increase in the octahedral distortions. The non-local (intersite) Ir d-d transitions show a monotonic blue-shift and decrease in spectral weight. The changes observed for the non-local excitations are most prominent well above Pc, namely for pressures ≥12 GPa, and only small changes occur for pressures close to Pc. The profile of the optical conductivity at high pressures (20 GPa) appears to be indicative for the dimerized state in iridates.