Role of Umklapp Processes in Conductivity of Doped Two-Leg Ladders
Abstract
Recent conductivity measurements performed on the hole-doped two-leg ladder material Sr14-xCaxCu24O41 reveal an approximately linear power law regime in the c-axis DC resistivity as a function of temperature for x=11. In this work, we employ a bosonic model to argue that umklapp processes are responsible for this feature and for the high spectral weight in the optical conductivity which occurs beyond the finite frequency Drude-like peak. Including quenched disorder in our model allows us to reproduce experimental conductivity and resistivity curves over a wide range of energies. We also point out the differences between the effect of umklapp processes in a single chain and in the two-leg ladder.
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