Bravais lattice
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In geometry and crystallography, a Bravais lattice, named after Auguste Bravais, is an infinite set of points generated by a set of discrete translation operations. A crystal is made up of one or more atoms (the basis) which is repeated at each lattice point. The crystal then looks the same when viewed from any of the lattice points. In all, there are 14 possible Bravais lattices that fill three-dimensional space.
Development of the Bravais lattices
The 14 Bravais lattices are arrived at by combining one of the seven crystal systems (or axial systems) with one of the lattice centerings.The lattice centerings are:
- Primitive centering (P): lattice points on the cell corners only
- Body centered (I): one additional lattice point at the center of the cell
- Face centered (F): one additional lattice point at center of each of the faces of the cell
- Centered on a single face (A, B or C centering): one additional lattice point at the center of one of the cell faces.
| Crystal system | Bravais lattices | |||
| triclinic | P | |||
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| monoclinic | P | C | ||
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| orthorhombic | P | C | I | F |
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| tetragonal | P | I | ||
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| rhombohedral (trigonal) | P | |||
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| hexagonal | P | |||
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| cubic | P | I | F | |
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The volume of the unit cell can be calculated by evaluating [\underline a.\underline b \times \underline c] where [\underline a, \underline b], and [\underline c] are the lattice vectors, the volumes of the Bravais lattices are given below:
| Crystal system | Volume | |||
| Triclinic | [abc \sqrt] | |||
| Monoclinic | [abc \sin\beta] | |||
| Orthorhombic | [ abc ] | |||
| Tetragonal | [ a^2c ] | |||
| Rhombohedral | [ a^3 \sqrt ] | |||
| Hexagonal | [\frac\, a^2c}] | |||
| Cubic | [ a^3] | |||
See also
- translational symmetry
- lattice (group)
- classification of lattices
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