Electrodynamics of Bechgaard Salts: Optical Properties of One-Dimensional Metals

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Abstract

The electrodynamic properties of the quasi-one-dimensional organic conductors (TMTSF) ₂ X are discussed, with particular emphasis on important deviations from the simple Drude model, the transition from a Luttinger-liquid to a Fermi-liquid behavior at the dimensional crossover when pressure is applied or temperature reduced, indications of a pseudogap as well as a low-frequency collective mode. Superconductivity and spin-density-wave ground states breaking the symmetry and gaps should occur in the excitation spectra. The previous literature is summarized and the current status of our understanding presented. Novel THz experiments on (TMTSF) ₂PF ₆ and (TMTSF) ₂ClO ₄ not only shine light into some of the open questions, but also pose new ones.

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Superconductivity in a synthetic organic conductor (TMTSF)2PF 6

D. Jérome, A. Mazaud, M Ribault … (1980)

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Organic conductors and superconductors

H.J. SCHULZ, D. Jérome (2006)

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Electrodynamics of Correlated Electron Materials

Dimitri N Basov, Kristjan Haule, Richard D. Averitt … (2011)

We review studies of the electromagnetic response of various classes of correlated electron materials including transition metal oxides, organic and molecular conductors, intermetallic compounds with \(d\)- and \(f\)-electrons as well as magnetic semiconductors. Optical inquiry into correlations in all these diverse systems is enabled by experimental access to the fundamental characteristics of an ensemble of electrons including their self-energy and kinetic energy. Steady-state spectroscopy carried out over a broad range of frequencies from microwaves to UV light and fast optics time-resolved techniques provide complimentary prospectives on correlations. Because the theoretical understanding of strong correlations is still evolving, the review is focused on the analysis of the universal trends that are emerging out of a large body of experimental data augmented where possible with insights from numerical studies.