Difference between revisions of "Parallelohedron"
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− | A [[ | + | A [[polyhedron]] for which it is possible, using a [[Parallel displacement(2)|parallel displacement]], to fill the entire space in such a way that no two copies of the polyhedron intersect (except for their boundary faces) and such that there are no empty spaces left between them, i.e. they should form a [[partition]] of space. Examples of parallelohedra are a cube or a regular $6$-angled prism. Topologically, the set of edges of parallelohedra fall into five different lattice types (see Fig. a, Fig. b, Fig. c, Fig. d, Fig. e). The numbers of faces are 6, 8, 12, 12, 14. In order that a polyhedron is a parallelohedron it is necessary and sufficient that it is a convex polyhedron of one of the five indicated topological types and that all of its faces have centres of symmetry. The centres of the parallelohedra in a partition form a [[lattice of points]] (see [[Voronoi lattice types]]). |
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+ | Parallelohedra are also called Voronoi cells, Dirichlet–Voronoi cells, space filters, or honeycombs. They play an essential role in the [[geometry of numbers]] and in lattice [[packing]]. | ||
<img style="border:1px solid;" src="https://www.encyclopediaofmath.org/legacyimages/common_img/p071440a.gif" /> | <img style="border:1px solid;" src="https://www.encyclopediaofmath.org/legacyimages/common_img/p071440a.gif" /> | ||
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====References==== | ====References==== | ||
− | <table><TR><TD valign="top">[a1]</TD> <TD valign="top"> P.M. Gruber, C.G. Lekkerkerker, "Geometry of numbers" , North-Holland (1987) pp. Sect. (iv) (Updated reprint)</TD></TR><TR><TD valign="top">[a2]</TD> <TD valign="top"> P. Erdös, P.M. Gruber, J. Hammer, "Lattice points" , Longman (1989)</TD></TR><TR><TD valign="top">[a3]</TD> <TD valign="top"> J.H. Conway, N.J.A. Sloane, "Sphere packing, lattices and groups" , Springer (1988)</TD></TR></table> | + | <table>* |
+ | <TR><TD valign="top">[a1]</TD> <TD valign="top"> P.M. Gruber, C.G. Lekkerkerker, "Geometry of numbers" , North-Holland (1987) pp. Sect. (iv) (Updated reprint)</TD></TR><TR><TD valign="top">[a2]</TD> <TD valign="top"> P. Erdös, P.M. Gruber, J. Hammer, "Lattice points" , Longman (1989)</TD></TR><TR><TD valign="top">[a3]</TD> <TD valign="top"> J.H. Conway, N.J.A. Sloane, "Sphere packing, lattices and groups" , Springer (1988)</TD></TR> | ||
+ | </table> | ||
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Revision as of 19:02, 5 October 2023
A polyhedron for which it is possible, using a parallel displacement, to fill the entire space in such a way that no two copies of the polyhedron intersect (except for their boundary faces) and such that there are no empty spaces left between them, i.e. they should form a partition of space. Examples of parallelohedra are a cube or a regular $6$-angled prism. Topologically, the set of edges of parallelohedra fall into five different lattice types (see Fig. a, Fig. b, Fig. c, Fig. d, Fig. e). The numbers of faces are 6, 8, 12, 12, 14. In order that a polyhedron is a parallelohedron it is necessary and sufficient that it is a convex polyhedron of one of the five indicated topological types and that all of its faces have centres of symmetry. The centres of the parallelohedra in a partition form a lattice of points (see Voronoi lattice types).
Parallelohedra are also called Voronoi cells, Dirichlet–Voronoi cells, space filters, or honeycombs. They play an essential role in the geometry of numbers and in lattice packing.
Figure: p071440a
Figure: p071440b
Figure: p071440c
Figure: p071440d
Figure: p071440e
Comments
References
*[a1] | P.M. Gruber, C.G. Lekkerkerker, "Geometry of numbers" , North-Holland (1987) pp. Sect. (iv) (Updated reprint) |
[a2] | P. Erdös, P.M. Gruber, J. Hammer, "Lattice points" , Longman (1989) |
[a3] | J.H. Conway, N.J.A. Sloane, "Sphere packing, lattices and groups" , Springer (1988) |
Parallelohedron. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Parallelohedron&oldid=54075