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Quasiparticle and Nonquasiparticle Transport in Doped Quantum Paraelectrics

Published 29 Jul 2020 in cond-mat.str-el and cond-mat.mtrl-sci | (2007.14947v2)

Abstract: Charge transport in doped quantum paralectrics (QPs) presents a number of puzzles, including a pronounced $T2$ regime in the resistivity. We analyze charge transport in a QP within a model of electrons coupled to a soft transverse optical (TO) mode via a two-phonon mechanism. For $T$ above the soft-mode frequency but below some characteristic scale ($E_0$), the resistivity scales with the occupation number of phonons squared, i.e., as $T2$. The $T2$ scattering rate does not depend on the carrier number density and is not affected by a crossover between degenerate and non-degenerate regimes, in agreement with the experiment. Temperatures higher than $E_0$ correspond to a non-quasiparticle regime, which we analyze by mapping the Dyson equation onto a problem of supersymmetric quantum mechanics. The combination of scattering by two TO phonons and by a longitudinal optical mode explains the data quite well.

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