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Advanced Optics: Lorentz Model
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Self-Diffusion in Metals
Explores self-diffusion in metals, covering temperature, pressure, crystal structures, diffusion coefficients, atomic jumps, and the Arrhenius equation.
Metals: from atom to solid
Explores the properties and applications of metals, emphasizing optimization of microstructures and mechanical behaviors.
Optical Properties of Free Electron Materials
Delves into the optical properties of materials with high electron concentration and good electrical conductivity, exemplified by aluminum and copper.
Density Functional Theory and Tight-Binding Models
Explores modeling multilayer 2D materials, tight-binding models, and electrical conductivity in materials, emphasizing the importance of symmetries and reduced models.
Plasticity: Mechanisms of Metals and Polymers
Covers the plasticity mechanisms of metals and polymers, including dislocations, solid solution hardening, and work hardening.
Self-Diffusion in Metals
Explores self-diffusion in metals, including temperature and pressure effects, empirical correlations, and crystal structures.
Metals and Alloys: Transformations and Properties
Explores the kinetics and properties of metals and alloys, emphasizing phase transitions and hardening mechanisms.
Self-Diffusion in Metals
Explores self-diffusion in metals, covering temperature and pressure influence, empirical correlations, and crystal defects.
Quantum Theory: Lorentz Transformation
Explores the Lorentz transformation in Quantum Theory, emphasizing Fock space representation and momentum concepts.
Metals and Alloys: Resources and Reserves
Discusses the properties of metals, ceramics, polymers, and foams, and the global extraction of metals.
