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THERMAL CONDUCTIVITY OF SUPERCONDUCTORS
Scattering of electrons by impurities
27 other sections not shown
absorption coefficient alloys angle anisotropy approximation BCS theory boundaries calculated Chapter collision integral component conductors contribution Cooper pairs corresponding crystal curve decreasing temperature deformation density described determined distribution function doped effect electron excitations electron-phonon interaction electronic thermal conductivity electrons by impurities energy gap experimental data exponentially Fermi surface Figure films following expression free path Ginzburg-Landau theory Green's function heat conduction heat flux impurity concentration investigated isotropic kinetic equation lattice conductivity low temperatures magnetic field major factor matrix element momentum multiband structure normal metal normal phase number of electron observed obtained overlapping bands paramagnetic parameters phonon pure superconductors R/Rn ratio relaxation scattering of electrons scattering of phonons sound absorption sound attenuation sound wave specific heat specimen strong coupling superconductors super supercon superconducting and normal temperature dependence temperature range theoretical thermoelectric thermoelectric effect threshold transition type-II superconductors ultrasonic ultrasonic absorption ultrasonic attenuation usual vector velocity zero