Electron-boson mode coupling and the pseudogap of NaxCoO2 by infrared spectroscopy
Abstract
We report the in-plane optical measurements on NaxCoO2 with 0.18≤x≤0.92. The crystal growth and characterization were described in detail. The spectral weight increases monotonically with decreasing x. For sample with the lowest Na content x0.18, the optical conductivity was strongly suppressed below 2200 cm-1 at low temperature. The suppression becomes weaker with increasing Na content, and disappears in charge-ordered sample with x0.5. At higher Na contents, similar suppression appears again but locates at higher energy scale near 3300 cm-1. Our analysis indicates that those spectral features are dominated by a combination of electrons coupling to a bosonic mode and a pseudogap-like phenomenon. We suggest that the pseudogap-like phenomenon is purely a band structure effect. The infrared activated phonon modes were discussed in relation with the structural geometries.
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