Negative intercept of the apparent zero-temperature extrapolated linear-in-T metallic resistivity

Abstract

We consider the well-known phonon scattering induced high-temperature linear-in-T metallic resistivity, showing that a naive extrapolation of the effective linearity from high temperatures to T=0 leads to an apparent zero-temperature negative resistivity. The precise magnitude of this extrapolated T=0 negative resistivity depends on the temperature regime from where the extrapolation is carried out, and approaches the correct physical result of zero resistivity at T=0 only if the extrapolation starts from T TD, where TD is the Debye temperature. We establish a theoretical relationship between the negative intercept and the slope of the linear-in-T resistivity as a function of the temperature T from where the extrapolation is carried out. Experimental implications of our finding are discussed for the much-discussed Planckian behavior of the transport scattering rate.

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