Incoherent optical conductivity and breakdown of the generalized Drude formula in Q1D bad metallic systems (CROSBI ID 150727)
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Podaci o odgovornosti
Kupčić, Ivan
engleski
Incoherent optical conductivity and breakdown of the generalized Drude formula in Q1D bad metallic systems
The high-energy (HE) intraband optical processes in a wide class of strongly correlated Q1D systems are explained in the way consistent with the Fermi golden rule, by using the force-force-correlation-function (FFCF) theory. It turns out that these processes must be distinguished from the related low-energy (LE) optical processes of the generalized Drude formula by making use of two different summations of Feynman diagrams, which include, respectively, the large-momentum and ${; ; ; \bf q}; ; ; \approx 0$ electron-hole excitations. Using the FFCF approach, the common expression for the single-particle optical conductivity of clean charge-density-wave (CDW) systems is rederived, and the formation of the CDW gap in the optical conductivity of dirty CDW systems is briefly discussed. It is argued that the clear distinction between the HE and LE intraband optical processes is required whenever the electrical/optical conductivity of conduction electrons is predominantly incoherent, including the cases of bad metallic compounds and various heavy-electron systems.
optical properties; bad metals; heavy electrons; Drude formula; force-force-correlation-function theory
Art. no. 235104.
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Podaci o izdanju
79 (23)
2009.
235104-1-235104-9
objavljeno
1098-0121
10.1103/PhysRevB.79.235104
Povezanost rada
Fizika