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Textbook
Basic Concepts of CrystallographyISBN: 978-3-527-33009-6
Paperback
276 pages
June 2011, ©2011
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Preface
Introduction
A Crystal
Language of Crystallography: Real Space
Language of Crystallography: Reciprocal Space
Reciprocal Space from a Physical Point of View
Language of Crystallography: Crystallographic Calculations
Language of Crystallography: Stereographic Projection
Local (Point) Symmetry: Basic Symmetry Elements
Local (Point) Symmetry: Combinations of Symmetry Elements
Local (Point) Symmetry: The 32 Point groups
Local (Point) Symmetry: Simple Crystal Forms
Bravais Lattices: General Classification
Bravais Lattices: "Boundary" Situations
Bravais Lattices and Inversion Centers
Atomic Packing and Coordination Numbers
Spatial Symmetry: New Symmetry Elements -
Screw Axes and Glide Planes
Spatial Symmetry: Space Groups
International Tables for Crystallography: Graphical Information on Crystal Symmetry
Physical Properties of Crystals from a Symmetry Point of View
Vector Properties: Ferroelectricity as an Example
Properties Described by Tensors of Second Rank: Dielectric Permittivity and Birefringence Effects,as Examples
Properties Described by Tensors of Third Rank: Piezo-Electric Effect as an Example
Properties Described by Tensors of Fourth Rank: Elastic Moduli as an Example
Acoustic Wave Propagation in Crystals
Reduction of Crystal Symmetry in External Fields
Twinning in Crystals
Introduction
A Crystal
Language of Crystallography: Real Space
Language of Crystallography: Reciprocal Space
Reciprocal Space from a Physical Point of View
Language of Crystallography: Crystallographic Calculations
Language of Crystallography: Stereographic Projection
Local (Point) Symmetry: Basic Symmetry Elements
Local (Point) Symmetry: Combinations of Symmetry Elements
Local (Point) Symmetry: The 32 Point groups
Local (Point) Symmetry: Simple Crystal Forms
Bravais Lattices: General Classification
Bravais Lattices: "Boundary" Situations
Bravais Lattices and Inversion Centers
Atomic Packing and Coordination Numbers
Spatial Symmetry: New Symmetry Elements -
Screw Axes and Glide Planes
Spatial Symmetry: Space Groups
International Tables for Crystallography: Graphical Information on Crystal Symmetry
Physical Properties of Crystals from a Symmetry Point of View
Vector Properties: Ferroelectricity as an Example
Properties Described by Tensors of Second Rank: Dielectric Permittivity and Birefringence Effects,as Examples
Properties Described by Tensors of Third Rank: Piezo-Electric Effect as an Example
Properties Described by Tensors of Fourth Rank: Elastic Moduli as an Example
Acoustic Wave Propagation in Crystals
Reduction of Crystal Symmetry in External Fields
Twinning in Crystals
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