Lecture

Crystal Structures: Cubic Lattices & Miller Indices

Related lectures (31)

Covers state-of-the-art methods for solid state characterization and emphasizes choosing the appropriate method for different materials.

Crystal Structures of Metals and Ceramics

Explores crystal structures of metals, alloys, ceramics, imperfections in solids, and amorphous materials.

Deformation and Creep in Materials

Explores deformation, creep, material properties, mechanical tests, ceramics, polymers, metals, and atomic bonds.

Electron Diffraction: Basics and Applications

Covers the fundamentals of electron diffraction and its applications in understanding crystal structures and symmetry, including lattice vectors, lattice planes, and dark-field imaging techniques.

Crystal Structures: Arrangement and Diffraction

Explores crystal structures, unit cells, Miller indices, and X-ray diffraction principles.

Electron Diffraction: Basics & Applications

Explores electron diffraction fundamentals, crystal symmetry, and advanced techniques for materials analysis.

Drude Model: Moving Charges

Explores the Drude model, charge scattering, conductivity, and temperature effects on materials.

Symmetry in Materials Science

Explores symmetry in materials science, covering crystal elements, symmetry groups, crystal classes, and Bravais lattice system.

Density of States in Semiconductor Devices

Explores density of states in semiconductor devices, covering electron gas, energy bands, Fermi-Dirac distribution, and band structures.

Diffusion in Solids: Heterodiffusion

Explores heterodiffusion in solids, discussing electrolyte diffusion, solute diffusion in crystals, crystal structures, and diffusion coefficients.

Crystallography: Unit Cells, Lattices, and Reciprocal Lattice

Introduces crystallography basics, covering unit cells, lattices, and reciprocal lattice concepts.

Crystal Structures: Miller Indices and Atom Arrangement

Explores crystal structures, Miller indices, X-ray diffraction, and solid microstructures.

Autodiffusion in Metals

Explores autodiffusion in metals, covering temperature and pressure influence, empirical correlations, and different metal structures.

Materials Science: Elasticity and Structures

Explores the properties of materials, elasticity, crystal structures, and polymers.

Magnetic Properties: Ferromagnetics & Miller Indices

Discusses stationary creep, material properties, magnetic properties of ferromagnetics, and Miller indices in crystallography.

Crystal Structure: Real and Reciprocal Lattice

Explores crystal structure, real and reciprocal lattice, and Miller indices in the context of wave-particle duality and Schrodinger equation.

Crystal Symmetry and Point Groups

Covers crystal symmetry, point groups, crystal classes, and space groups in relation to crystal structures and descriptions.

Self-Diffusion in Metals

Explores self-diffusion in metals, covering temperature, pressure, crystal structures, diffusion coefficients, atomic jumps, and the Arrhenius equation.

Crystal Structure: Diffraction and Bragg's Law

Explores diffraction principles for observing atomic arrangements and determining crystal structures in solids.

Crystal Symmetry and Structures

Explores crystal symmetry, systems, lattices, and space groups, emphasizing solid state structures and close-packed arrangements.