Pseudogap formation of four-layer BaRuO3 and its electrodynamic response changes

Abstract

We investiaged the optical properties of four-layer BaRuO3, which shows a fermi-liquid-like behavior at low temperature. Its optical conductivity spectra clearly displayed the formation of a pseudogap and the development of a coherent peak with decreasing temperature. Temperature-dependences of the density n and the scattering rate 1/τ of the coherent component were also derived. As the temperature decreases, both n and 1/τ decrease for four-layer BaRuO3. These electrodynamic responses were compared with those of nine-layer BaRuO3, which also shows a pseudogap formation but has an insulator-like state at low temperature. It was found that the relative rates of change of both n and 1/τ determine either metallic or insulator-like responses in the ruthenates. The optical properties of the four-layer ruthenate were also compared with those of other pseudogap systems, such as high Tc cuprates and heavy electron systems.

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