The Electrical Properties Of Disordered Metals
Contents
- Ordered Crystalline Metals
- Disordered Metals
- Beyond Boltzmann Theory
- Metallic Glasses
- Production And Structure Of Metallic Glasses
- What Are Metallic Glasses?
- Properties Of Glasses In General
- How Are Metallic Glasses Produced?
- Alloys That Can Form Stable Glasses
- Structure Of Metallic Glasses
- Electron Transport In Metals: Introduction To Conventional Theory
- The Source Of Electrical Resistance
- The Conduction Electrons
- Calculation Of Electrical Conductivity
- The Electrical Conductivity
- Conductivity And Diffusion Coefficient Of Conduction
- Electrons
- Scattering
- Some Definitions And Formulae Of Scattering Theory
- Fourier Transforms
- The Influence Of Scattering Angle
- The Influence Of The Exclusion Principle
Electron Screening In Metals
- The Pseudopotential
- Simple Liquid Metals: Ziman Theory
- A>States In Disordered Metals
- The Ziman Model
- The Temperature Dependence Of Resistivity
- Phonons In Disordered Systems
- Normal Modes In Glasses
- Scattering Of Electrons By Phonons
- Low Temperature Scattering Of Electrons By Phonons
- Scattering Of Electrons By Phonons At High Temperatures
- The Electrical Properties Of Disordered Metals
- Interactions And Quasiparticles
- The Validity Of The Independent Electron Picture
- Quasiparticles
- Particle Hole Pairs
- Electron Interaction Mediated By Phonons
- Collective Electron Modes
- Transition Metals And Alloys
- Crystalline Transition Metals
- The Mott Model
- Transition Metal Glasses
- The Hall Coefficient Of Metallic Glasses
- Conventional Theory
- Preliminary Comparison With Experiment