Physcial Properties of SuperconductorNo Access

OPTICAL CONDUCTIVITY OF OXIDES

Laboratory of Electrodynamics of Advance Materials, UMR 6157 CNRS/CEA, Faculty of Sciences and Techniques, Francois Rabelais University, 37200 Tours, France

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VINH TA PHUOC

Laboratory of Electrodynamics of Advance Materials, UMR 6157 CNRS/CEA, Faculty of Sciences and Techniques, Francois Rabelais University, 37200 Tours, France

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NATHALIE POIROT

Laboratory of Electrodynamics of Advance Materials, UMR 6157 CNRS/CEA, Faculty of Sciences and Techniques, Francois Rabelais University, 37200 Tours, France

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CEDRIC COQUELET

Laboratory of Electrodynamics of Advance Materials, UMR 6157 CNRS/CEA, Faculty of Sciences and Techniques, Francois Rabelais University, 37200 Tours, France

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GISELE GRUENER

Laboratory of Electrodynamics of Advance Materials, UMR 6157 CNRS/CEA, Faculty of Sciences and Techniques, Francois Rabelais University, 37200 Tours, France

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, and

RICARDO P. S. M. LOBO

Laboratoire de Physique du Solide, UPR5 CNRS, ESPCI Paris, France

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https://doi.org/10.1142/S0217979205028128Cited by:1 (Source: Crossref)

Abstract

Optical conductivity spectra of conducting oxides including high-T_C cuprates - compared to non-superconducting nickelates in particular - deduced from infrared reflectivity spectroscopy in polarized light and their doping and temperature dependence, are discussed with emphasis on the signatures of intrinsic inhomogeneities of charge carrier concentration. The model of disordered metal is shown to be compatible with the general loss of spectral weight in the optical conductivity upon decreasing frequency, instead of a maximum conductivity at zero frequency as found within a Drude description. In high-T_C multilayer cuprates, the discussion focuses upon the c-axis response and the inhomogeneity of the electronic concentration related to the conducting planes alternating with insulating sheets. The onset of stripes that are intrinsic inhomogeneities of the charge carrier distribution is discussed in the example of nickelates.

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OPTICAL CONDUCTIVITY OF OXIDES

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