Infrared spectroscopy of the charge ordering transition in Na0.5CoO2

Abstract

We report infrared spectra of a Na0.5CoO2 single crystal which exhibits a sharp metal-insulator transition near 50 K due to the formation of charge ordering. In comparison with x=0.7 and 0.85 compounds, we found that the spectral weight associated with the conducting carriers at high temperature increases systematically with decreasing Na contents. The charge ordering transition only affects the optical spectra below 1000 cm-1. A hump near 800 cm-1 develops below 100 K, which is accompanied by the appearance of new lattice modes as well as the strong anti-resonance feature of phonon spectra. At lower temperature Tco, an optical gap develops at the magnitude of 2≈3.5kBTco, evidencing an insulating charge density wave ground state. Our experimental results and analysis unequivocally point towards the importance of charge ordering instability and strong electron-phonon interaction in NaxCoO2 system.

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