Electronic Structure and PropertiesFrank Y. Fradin |
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Page 298
... Scattering Mechanisms We know from Bloch's theorem that noninteracting electrons in a perfect lattice experience no scattering . In a metal this means that once conduction electrons are accelerated by an electric field they will ...
... Scattering Mechanisms We know from Bloch's theorem that noninteracting electrons in a perfect lattice experience no scattering . In a metal this means that once conduction electrons are accelerated by an electric field they will ...
Page 317
... scattering into electron d states should cause that type of scattering to predominate . The s electron is scattered by either absorbing or emitting a phonon into the low Fermi velocity d band where it is assumed to be completely removed ...
... scattering into electron d states should cause that type of scattering to predominate . The s electron is scattered by either absorbing or emitting a phonon into the low Fermi velocity d band where it is assumed to be completely removed ...
Page 332
... scattering cross section will no longer be linear in the scattering perturbation . In particular , if the electron - phonon interaction is the dominant temperature - dependent scattering mechanism , the resistance will no longer be ...
... scattering cross section will no longer be linear in the scattering perturbation . In particular , if the electron - phonon interaction is the dominant temperature - dependent scattering mechanism , the resistance will no longer be ...
Contents
Illustrative Examples | 25 |
Photoelectron Spectroscopy as an Electronic | 99 |
Electronic Structure and the ElectronPhonon Interaction | 165 |
Copyright | |
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Electronic Structure and Properties: Treatise on Materials ..., Volume 21 Frank Y. Fradin Limited preview - 2016 |
Common terms and phrases
alloys anomalies approximation atom band structure binding energy Brillouin zone calculated charge density Chem cluster component compounds conduction electrons contribution correlation Coulomb crystal curve d band deformation potential e/at effect elastic constants electrical resistivity electron density electron gas electron-phonon interaction electronic structure energy band experiment experimental Fermi energy Fermi surface ferromagnetic Freeman Friedel Friedel oscillations Gupta hydrogen impurity increase interstitial ions jellium jellium model Jena lattice Lett magnetic Manninen matrix elements measured method moduli monovacancy muffin-tin muon N/m² Nb-Mo Nieminen obtained Papaconstantopoulos parameter peak phase phonon photoemission Phys point defects positron properties proton pseudopotential radius sample scattering self-consistent shear shift shown in Fig shows Solid State Commun spectra spin density strain superconducting temperature dependence theoretical theory tion transition metals transition-metal vacancy valence values variation velocity void volume wave functions York