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Space lattices

Published online by Cambridge University Press:  14 March 2018

S. I. Tomkeieff
S. I. Tomkeieff*
Affiliation:
King's College, University of Durham, Newcastle-upon-Tyne
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Abstract

The concept of a space lattice is fundamental in crystallography. A space lattice, or more simply a lattice, is an indefinitely extended regular array of points, in which the environment of each point is exactly the same. This implies that if the lattice is (1) translated parallel to itself, or (2) inverted about one of its points, or (3) rotated it will remain precisely the same as it was before such transformations. Such projective transformations as translation, inversion, or rotation are called symmetry operations. A lattice therefore may be said to be invariant in respect to certain specific symmetry operations. It is then said to possess certain symmetry elements.

Type
Research Article
Information
Mineralogical magazine and journal of the Mineralogical Society , Volume 30 , Issue 229 , June 1955 , pp. 625 - 632
Copyright
Copyright © 1955, The Mineralogical Society

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References

page 626 note 1 Bragg, W.H., The significance of crystal structure. Journ. Chem. Soc. London, 1922, vol. 121, pp. 27662787..CrossRefGoogle Scholar[M.A. 2-328.]

page 627 note 1 Bond, W.L., The fourteen space lattice. Univ. Toronto Studies, Geol. Ser., 1947, no. 51 (for 1946), pp. 920..Google Scholar[M.A. 10-149.]