Unusual Metallic Conductivity of Underdoped and Optimally Doped Cuprates: Evidence for Competing Fermi-Liquid and Pairing Pseudogap Effects
Abstract
We propose a possible scenario for the new metallic conductivity of underdoped and optimally doped cuprates. Charge carriers are assumed to be large polarons which form a Fermi-liquid and Cooper-like pairs below a crossover tempurature T. We use the Boltzmann equation to calculate the conductivity of self-trapped carriers and the resistivity ρ as a function of temperature and doping for different cuprates. We show that various anomalies in ρ(T) below T are caused by the competing Fermi-liquid and BCS-like precursor pairing effects. Our results for ρ fit well with existing experiments and characterize high-Tc cuprates with an intermediate-coupling.
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