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From podcast_bulk on October 19th, 2018
First 15 min: Welcome to the course. Last 15 min: Le1 Crystal Structure part 1 (Crystallography, 2D Bravais Lattice). -
From podcast_bulk on October 19th, 2018
Bravais Lattices in 3D. Correction to the first 30 sec: "Bravais Lattice" -> "Wigner Seitz cell" (twice!) -
From podcast_bulk on October 19th, 2018
Miller indices -
From podcast_bulk on October 19th, 2018
Brillouin zones, structure factor, atomic form factor -
From podcast_bulk on October 19th, 2018
Bragg law, diffraction theory, the reciprocal lattice -
From podcast_bulk on October 19th, 2018
Diffraction theory Ewald construction in the reciprocal space -
From podcast_bulk on October 19th, 2018
Examples of experimental diffraction data -
From podcast_bulk on October 19th, 2018
Crystal binding lecture 1: Overview and van der Waals binding. -
From podcast_bulk on October 19th, 2018
Van der Waals interactions (summary after the break). -
From podcast_bulk on October 19th, 2018
Ionic, covalent, metallic and hydrogen-bonding. -
From podcast_bulk on October 19th, 2018
Stress, strain, elastic constants and elastic waves. -
From podcast_bulk on October 19th, 2018
Two slides about the purpose of exercise 6 (atomic volumes) -
From podcast_bulk on October 19th, 2018
Summary of elasticity and elastic waves. Plastic deformation (phenomenology). Atomic-scale mechanism: dislocations. Edge dislocations. -
From podcast_bulk on October 19th, 2018
Screw and mixed dislocations. Plastic deformation in polycrystalline metals. -
From podcast_bulk on October 19th, 2018
Lecture on Phonons and Crystal Vibrations 1/3 -
From podcast_bulk on October 19th, 2018
Lecture on Phonons and Crystal Vibrations 1/3