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ELECTRONIC THERMAL CONDUCTIVITY K
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Abrikosov and Gor'kov anisotropic assume attenuation coefficient Chapter compute conduction electrons consider contribution Cooper pairs correlation functions coupling decrease defined density dependence discussion effect electron-phonon electronic thermal conductivity energy gap equations of motion exchange interaction exchange scattering factor Fermi surface finite Fourier transform frequency gapless given Gor'kov order parameter Hamiltonian hence impurity average impurity scattering impurity spins increase independent integral integrand isotropic Kadanoff Kadanoff and Falko Kg/Kn Kubo formula latter longitudinal sound wave low temperatures lowest order magnetic field magnetic impurities Maki Maki's matrix mean free path Meissner effect momentum non-magnetic impurities normal metal nuclear spin paramagnetic alloy paramagnetic impurity concentration particle Green's functions persistent currents perturbation phonon Phys presence properties pure superconductor quasi-particle reduces region result rotating S-wave Section self-consistent self-energy single particle Green's spectral spin-lattice relaxation sufficiently superconducting alloy supercurrent theory time-reversal transition temperature values vector vertex corrections