Quasiparticle and Nonquasiparticle Transport in Doped Quantum Paraelectrics

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 (E0), 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 E0 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.