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W2607369389 abstract "We study thermal and electrical transport in metals and superconductors near a quantum phase transition where antiferromagnetic order disappears. The same theory can also be applied to quantum phase transitions involving the loss of certain classes of intrinsic topological order. For a clean superconductor, we recover and extend well-known universal results. The heat conductivity for commensurate and incommensurate antiferromagnetism coexisting with superconductivity shows a markedly different doping dependence near the quantum critical point, thus allowing us to distinguish between these states. In the dirty limit, the results for the conductivities are qualitatively similar for the metal and the superconductor. In this regime, the geometric properties of the Fermi surface allow for a very good phenomenological understanding of the numerical results on the conductivities. In the simplest model, we find that the conductivities do not track the doping evolution of the Hall coefficient, in contrast to recent experimental findings. We propose a doping dependent scattering rate, possibly due to quenched short-range charge fluctuations below optimal doping, to consistently describe both the Hall data and the longitudinal conductivities." @default.
W2607369389 created "2017-04-28" @default.
W2607369389 creator A5023753501 @default.
W2607369389 creator A5032907383 @default.
W2607369389 creator A5041649350 @default.
W2607369389 date "2017-08-02" @default.
W2607369389 modified "2023-10-16" @default.
W2607369389 title "Thermal and electrical transport in metals and superconductors across antiferromagnetic and topological quantum transitions" @default.
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W2607369389 doi "https://doi.org/10.1103/physrevb.96.075103" @default.
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