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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Results 1-5 of 86
Page 29
... shown using linear response theory (Stassis et al. 1975; Freeman et al., 1975, 1976). As shown by Stassis et al. (1975), for a uniform external field H, the Fourier transform of the induced moment is given ... Fig. 7, we show the ply for some ...
... shown using linear response theory (Stassis et al. 1975; Freeman et al., 1975, 1976). As shown by Stassis et al. (1975), for a uniform external field H, the Fourier transform of the induced moment is given ... Fig. 7, we show the ply for some ...
Page 30
... shown in Fig. 8 was found to be largely d-like except close to the sphere radius where it has considerable p character. This d-spin density itself is quite extended spatially in contrast to the atomic 3d density expected for the free ...
... shown in Fig. 8 was found to be largely d-like except close to the sphere radius where it has considerable p character. This d-spin density itself is quite extended spatially in contrast to the atomic 3d density expected for the free ...
Page 31
... shown in Fig. 10a as a contour map. The numbers shown are multiples of 10 ” uB/A" and the dark circles represent the projections of the atomic sites. In the projection the moment density is a 4.O H.F. (Jo) sc” O.8 - - - 3. O.6. Fig. 8 ...
... shown in Fig. 10a as a contour map. The numbers shown are multiples of 10 ” uB/A" and the dark circles represent the projections of the atomic sites. In the projection the moment density is a 4.O H.F. (Jo) sc” O.8 - - - 3. O.6. Fig. 8 ...
Page 32
... seen from Fig. 10b, the theoretical results give quite good agreement with the experimental contour map shown in Fig. 10a. This good agreement gives added confidence to the theoretical results. b. Paramagnetic På and Pt Metals. Even ...
... seen from Fig. 10b, the theoretical results give quite good agreement with the experimental contour map shown in Fig. 10a. This good agreement gives added confidence to the theoretical results. b. Paramagnetic På and Pt Metals. Even ...
Page 34
... shown in Fig. 11). This is all the more remarkable when one recalls that the solid-state potential is derived from a superposition of neutral free-atom densities taken from the Hartree–Fock–Slater calculation with an assumed 4d ...
... shown in Fig. 11). This is all the more remarkable when one recalls that the solid-state potential is derived from a superposition of neutral free-atom densities taken from the Hartree–Fock–Slater calculation with an assumed 4d ...
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