Physics of Amorphous Metals
Nikolai P. Kovalenko, Yuri P. Krasny, Uwe Krey
Résumé
While both theorists and experimentalist interested in amorphous metals will profit from this book, it will also be useful supplementary reading in courses on solid-state physics and material sciences.
Contents
1 On the structure of amorphous metals 1
- 1.1 Introduction: preparation of amorphous metals, and simple models 1
- 1.2 The Radial Distribution Function and the Structure Function 3
- 1.3 Structural models of glassy metals 7
- 2.1 An effective Hamiltonian for the electron-ion system of elemental metals 15
- 2.2 Pseudopotential theory 18
- 2.3 Model pseudopotentials 25
- 2.4 Microscopic theory of the homogeneous electron gas 29
- 2.5 The effective interaction between ions in liquid or amorphous metals 37
- 2.6 The effective two-particle ion-ion interaction (to second order in the pseudopotential) 47
- 2.7 Effective ion-ion pair interaction to cubic order in the pseudopotential 52
- 2.8 Many-particle interactions in metallic hydrogen 58
- 2.9 Computer calculations of the electronic structure in metallic amorphous alloys 69
- 3.1 Experiments on the atomic dynamics in glasses 77
- 3.2 A tunnelling model 80
- 3.3 A quasi-phonon model for amorphous metals; heat capacity at moderately low temperatures 99
- 3.4 The quasi-phonon contribution to the heat conductivity and sound absorption at moderately low temperatures 111
- 3.5 Beyond the quasi-phonon approximation 129
- 4.1 Review of experimental results 135
- 4.2 Thermodynamic properties of amorphous ferromagnets near the Curie temperature 139
- 4.3 The spectrum of quasi-magnon excitations in amorphous ferromagnets 150
- 4.4 Low-temperature magnetic behavior of amorphous ferromagnets 156
- 4.5 Beyond the quasi-magnon approach: computer simulations 167
- 4.6 The thermodynamics of amorphous ferromagnets 169
- 4.7 Itinerant magnetism and itinerant spin-glass behavior in amorphous alloys 171
- 5.1 The Eliashberg equation for amorphous metals 179
- 5.2 The electron-phonon coupling constant and the superconducting transition temperature for simple amorphous metals 198
- 5.3 Superconducting properties of binary alloys of simple amorphous metals 205
7 Appendices 217
- Appendix A Calculation of the free energy of amorphous metals 217
- Appendix B Calculation of the free energy of amorphous ferromagnets 220
- Appendix C Derivation of the Eliashberg equation for amorphous metals 238
- Appendix D Simplification of the Eliashberg equation 256
- References 269
- Index 275
Caractéristiques techniques
PAPIER | |
Éditeur(s) | Wiley |
Auteur(s) | Nikolai P. Kovalenko, Yuri P. Krasny, Uwe Krey |
Parution | 15/01/2001 |
Nb. de pages | 280 |
Format | 17,3 x 24,5 |
Couverture | Relié |
Poids | 691g |
Intérieur | Noir et Blanc |
EAN13 | 9783527403158 |
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