Electronic Structure and Properties: Treatise on Materials Science and Technology, Vol. 21, Volume 21Frank Y. Fradin Treatise on Materials Science and Technology, Volume 21: Electronic Structure and Properties covers the developments in electron theory and electron spectroscopies. The book discusses the electronic structure of perfect and defective solids; the photoelectron spectroscopy as an electronic structure probe; and the electron-phonon interaction. The text describes the elastic properties of transition metals; the electrical resistivity of metals; as well as the electronic structure of point defects in metals. Metallurgists, materials scientists, materials engineers, and students involved in the related fields will find the book useful. |
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Page v
... Phonon Interaction W. H. Butler I. Introduction to the Formalism of the Electron–Phonon Interaction Contents vii 99 102 125 138 142 160 160 165 Elastic Properties of Transition Metals S. G. Steinemann and E. Table of Contents.
... Phonon Interaction W. H. Butler I. Introduction to the Formalism of the Electron–Phonon Interaction Contents vii 99 102 125 138 142 160 160 165 Elastic Properties of Transition Metals S. G. Steinemann and E. Table of Contents.
Page vi
... Transition Metals S. G. Steinemann and E. S. Fisher Electrical Resistivity of Metals 19] 217 223 225 230 25 | 29 | 29] List of Contributors Numbers in parentheses indicate the pages on. Electron- Phonon Matrix Elements References ...
... Transition Metals S. G. Steinemann and E. S. Fisher Electrical Resistivity of Metals 19] 217 223 225 230 25 | 29 | 29] List of Contributors Numbers in parentheses indicate the pages on. Electron- Phonon Matrix Elements References ...
Page xi
... transition metals, alloys, and intermetallic compounds, with a number of illustrative examples from the oxides and silicates. Although the electron theory of metals and alloys was developed by Mott and others as early as the 1930s ...
... transition metals, alloys, and intermetallic compounds, with a number of illustrative examples from the oxides and silicates. Although the electron theory of metals and alloys was developed by Mott and others as early as the 1930s ...
Page xii
... transition temperature, lifetimes of phonons, lattice thermal resistivity, and interatomic force constants or phonon frequencies. Specific examples are given for the free electron metals, the transition metals, and the A-15 (e.g., V,Si) ...
... transition temperature, lifetimes of phonons, lattice thermal resistivity, and interatomic force constants or phonon frequencies. Specific examples are given for the free electron metals, the transition metals, and the A-15 (e.g., V,Si) ...
Page 13
... transition metals in order to interpret optical properties, g factors, magnetic, and Compton scattering data. Many other works have provided semiquantitative analysis of LCAO charge densities—for example, as interpolation schemes for ...
... transition metals in order to interpret optical properties, g factors, magnetic, and Compton scattering data. Many other works have provided semiquantitative analysis of LCAO charge densities—for example, as interpolation schemes for ...
Contents
1 | |
Chapter 2 Photoelectron Spectroscopy as an Electronic Structure Probe | 99 |
Chapter 3 Electronic Structure and the ElectronPhonon Interaction | 165 |
Chapter 4 Elastic Properties of Transition Metals | 223 |
Chapter 5 Electrical Resistivity of Metals | 297 |
Chapter 6 Electronic Structure of Point Defects in Metals | 351 |
INDEX | 427 |
CONTENTS OF PREVIOUS VOLUMES | 441 |
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Common terms and phrases
alloys anomalies approximation atom band structure binding energy Brillouin zone bulk calculations charge density 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 equation experiment experimental Fermi energy Fermi level Fermi surface ferromagnetic Freeman Friedel Friedel oscillations ground-state hybridization hydrogen impurity increase interstitial ions jellium jellium model Jena lattice Lett magnetic materials measured method moduli monovacancy muffin-tin muon obtained orbitals Papaconstantopoulos parameter peak phase phonon photoemission Phys point defects polarization positron properties proton pseudopotential rare-earth region sample scattering self-consistent shear shift shown in Fig shows Solid State Commun spectra Spectroscopy spin density strain Superconductivity temperature dependence theoretical theory tion transition metals transition-metal vacancy valence valence-band values variation velocity Wang wave functions York