Architectonic and catoptric tessellation

In geometry, John Horton Conway defines architectonic and catoptric tessellations as the uniform tessellations (or honeycombs) of Euclidean 3-space and their duals, as three-dimensional analogue of the Platonic, Archimedean, and Catalan tiling of the plane. The singular vertex figure of an architectonic tessellation is the dual of the cell of catoptric tessellation. The cubille is the only Platonic (regular) tessellation of 3-space, and is self-dual.

The pairs of architectonic and catoptric tessellations are listed below with their symmetry group. These tessellations only represent four symmetry space groups, and also all within the cubic crystal system. Many of these tessellations can be defined in multiple symmetry groups, so in each case the highest symmetry is expressed.

Ref.[1]
indices
Symmetry Architectonic tessellation Catoptric tessellation
Name
Coxeter diagram
Image
Vertex figure
Image
Cells Name Cell Vertex figures
J11,15
A1
W1
G22
δ4
nc
[4,3,4]
Cubille,
Octahedron,
Cubille,

Cube,

J12,32
A15
W14
G7
t1δ4
nc
[4,3,4]
Cuboctahedrille,
Cuboid,
Oblate octahedrille


Isosceles square bipyramid

,
J13
A14
W15
G8
t0,1δ4
nc
[4,3,4]
Truncated cubille,
Isosceles square pyramid
Pyramidille,

Isosceles square pyramid

,
J14
A17
W12
G9
t0,2δ4
nc
[4,3,4]
2-RCO-trille,
Wedge
Quarter oblate octahedrille
irr. Triangular bipyramid
, ,
J16
A3
W2
G28
t1,2δ4
bc
4,3,4
Truncated octahedrille,
Tetragonal disphenoid
Oblate tetrahedrille,

Tetragonal disphenoid

J17
A18
W13
G25
t0,1,2δ4
nc
[4,3,4]
n-tCO-trille,
Mirrored sphenoid
Triangular pyramidille, Mirrored sphenoid
, ,
J18
A19
W19
G20
t0,1,3δ4
nc
[4,3,4]
1-RCO-trille,
Trapezoidal pyramid
Square quarter pyramidille, Irr. pyramid
, , ,
J19
A22
W18
G27
t0,1,2,3δ4
bc
4,3,4
b-tCO-trille,
Phyllic disphenoid
Eighth pyramidille, Phyllic disphenoid
,
J21,31,51
A2
W9
G1
4
fc
[4,31,1]
Tetroctahedrille,
Cuboctahedron,
Dodecahedrille,

Rhombic dodecahedron,

,
J22,34
A21
W17
G10
h2δ4
fc
[4,31,1]
truncated tetraoctahedrille,
Rectangular pyramid
Half oblate octahedrille,
rhombic pyramid

, ,
J23
A16
W11
G5
h3δ4
fc
[4,31,1]
3-RCO-trille,
Truncated triangular pyramid
Quarter cubille irr. triangular bipyramid
J24
A20
W16
G21
h2,3δ4
fc
[4,31,1]
f-tCO-trille,
Mirrored sphenoid
Half pyramidille Mirrored sphenoid
J25,33
A13
W10
G6
4
d
[[3[4]]]
Truncated tetrahedrille,
Isosceles triangular prism
Oblate cubille
Trigonal trapezohedron

Symmetry

These are four of the 35 cubic space groups

These four symmetry groups are labeled as:

Label Description space group
Intl symbol
Geometric
notation[2]
Coxeter
notation
Fibrifold
notation
bc bicubic symmetry
or extended cubic symmetry
(221) Im3mI434,3,4
8°:2
nc normal cubic symmetry (229) Pm3mP43[4,3,4]
4:2
fc half-cubic symmetry (225) Fm3mF43[4,31,1] = [4,3,4,1+]
2:2
d diamond symmetry
or extended quarter-cubic symmetry
(227) Fd3mFd4n3[[3[4]]] = [[1<sup>+</sup>,4,3,4,1<sup>+</sup>]]
2+:2

References

  1. For cross-referencing of Architectonic solids, they are given with list indices from Andreini (1-22), Williams(1-2,9-19), Johnson (11-19, 21-25, 31-34, 41-49, 51-52, 61-65), and Grünbaum(1-28). Coxeters names are based on δ4 as a cubic honeycomb, hδ4 as an alternated cubic honeycomb, and qδ4 as a quarter cubic honeycomb.
  2. Hestenes, David; Holt, Jeremy (2007-02-27). "Crystallographic space groups in geometric algebra" (PDF). Journal of Mathematical Physics. AIP Publishing LLC. 48 (2). doi:10.1063/1.2426416. ISSN 1089-7658.

Further reading

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