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Difference between revisions of "Unit cell"

From Online Dictionary of Crystallography

(Ambiguity in other languages: reformulation following a discussion in the nomenclature commission of the French Cryst. Assoc.)
 
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= Unit cell =
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<font color="blue">Maille</font> (''Fr''). <font color="red">Elementarzelle</font> (''Ge''). <font color="black">Cella unitaria</font> (''It''). <font color="purple">単位胞(単位格子)</font> (''Ja''). <font color="brown">элементарная ячейка</font> (''Ru''). <font color="green">Celda unidad</font> (''Sp'').
 
 
=== Other languages ===
 
 
 
<Font color="blue>Maille élémentaire </Font>(''Fr''). <Font color="red"> Einheitszelle </Font>(''Ge''). <Font color="green">Celda unidad </Font>(''Sp''). <FONT color="purple">элементарная ячейка </Font>(''Ru'').
 
  
 
= Definition =
 
= Definition =
  
The '''unit cell''' is the parallelepiped built on the vectors, '''a''', '''b''', '''c''', of a crystallographic basis of the [[direct lattice]]. Its volume is given by the triple scalar product, ''V'' = ('''a''', '''b''', '''c''').
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The '''unit cell''' is the parallelepiped built on the vectors, '''a''', '''b''', '''c''', of a crystallographic basis of the [[direct lattice]]. Its volume is given by the scalar triple product, ''V'' = ('''a''', '''b''', '''c''') and corresponds to the square root of the determinant of the [[metric tensor]].
  
If the basis is primitive, the unit cell is called the [[primitive cell]]. It contains only one lattice point. If the basis is non-primitive, the unit cell is a multiple cell and it contains more than one lattice point. The multiplicity of the cell is given by the ratio of its volume to the volume of a primitive cell.
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If the basis is primitive, the unit cell is called the [[primitive cell]]. It contains only one lattice point. If the basis is non-primitive, the unit cell is a [[centred lattices|multiple cell]] and it contains more than one lattice point. The multiplicity of the cell is given by the ratio of its volume to the volume of a primitive cell.
  
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=Ambiguity in other languages=
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The terms ''maille élémentaire'' (French) and ''cella elementare'' (Italian), often adopted for the English ''unit cell'', are sometimes incorrectly used in the meaning of [[conventional cell]], whereas by definition they correspond to a primitive ('elementary') cell. It should be noticed that the term ''maille élémentaire'' is absent from the classical French textbooks on geometrical crystallography: Bravais used ''parallélogramme générateur'' or ''maille parallélogramme'' (''E''<sup>2</sup>) and ''parallélopipède générateur'' or ''noyau'' ('E'<sup>3</sup>), while Mallard used just ''maille'' and Friedel ''maille simple''.
  
 
= See also =
 
= See also =
 
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*[[Asymmetric unit]]
[[direct lattice]]
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*[[Conventional cell]]
 
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*[[Direct lattice]]
Section 8.1 of ''International Tables of Crystallography, Volume A''
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*[[Primitive cell]]
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*Chapter 1.3.2.3 of ''International Tables for Crystallography, Volume A'', 6th edition
  
 
[[Category:Fundamental crystallography]]
 
[[Category:Fundamental crystallography]]

Latest revision as of 15:33, 1 February 2018

Maille (Fr). Elementarzelle (Ge). Cella unitaria (It). 単位胞(単位格子) (Ja). элементарная ячейка (Ru). Celda unidad (Sp).

Definition

The unit cell is the parallelepiped built on the vectors, a, b, c, of a crystallographic basis of the direct lattice. Its volume is given by the scalar triple product, V = (a, b, c) and corresponds to the square root of the determinant of the metric tensor.

If the basis is primitive, the unit cell is called the primitive cell. It contains only one lattice point. If the basis is non-primitive, the unit cell is a multiple cell and it contains more than one lattice point. The multiplicity of the cell is given by the ratio of its volume to the volume of a primitive cell.

Ambiguity in other languages

The terms maille élémentaire (French) and cella elementare (Italian), often adopted for the English unit cell, are sometimes incorrectly used in the meaning of conventional cell, whereas by definition they correspond to a primitive ('elementary') cell. It should be noticed that the term maille élémentaire is absent from the classical French textbooks on geometrical crystallography: Bravais used parallélogramme générateur or maille parallélogramme (E2) and parallélopipède générateur or noyau ('E'3), while Mallard used just maille and Friedel maille simple.

See also