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Uniform polytope - Wikipedia, the free encyclopedia

Uniform polytope

From Wikipedia, the free encyclopedia

A uniform polytope is a vertex-transitive polytope made from uniform polytope facets and lower elements.

Uniformity is a generalization of the older category semiregular, but also includes the regular polytopes. Further, nonconvex regular faces and vertex figures (star polygons) are allowed, which greatly expand the possible solutions.

A strict definition requires uniform polytopes be finite, while a more expansive definition allows uniform tessellations (tilings and honeycombs) of Euclidean and hyperbolic space to be considered polytopes as well.

Nearly all uniform polytopes can be generated by a Wythoff construction, and represented by a Coxeter-Dynkin diagram.

The terminology for the convex uniform polytopes used in uniform polyhedron, uniform polychoron, and convex uniform honeycomb articles were coined by Norman Johnson.

Contents

[edit] Rectification operators

Regular n-polytopes have n+1 orders of rectification. The zeroth rectification is the original form. The nth rectification is the dual. The first rectification reduces edges to vertices. The second rectification reduces faces to vertices. The third rectification reduces cells to vertices, etc.

An extended Schläfli symbol can be used for representing rectified forms, with a single subscript:

  • n-th rectification = tn{p,q,...}

[edit] Truncation operators

Regular n-polytopes have n orders of truncations that can be applied in any combination, and which can create new uniform polytopes.

  1. Truncation - applied to polygons and higher. A truncation is a form that exists between adjacent rectified forms.
  2. Cantellation - applied to polyhedrons and higher and creates uniform polytopes that exists between alternate rectified forms.
    • Schläfli symbol for the n-th cantellation is tn-1,n+1{p,q,...}
  3. Runcination - applied to polychorons and higher and creates uniform polytopes that exists between third alternate rectified forms.
    • Schläfli symbol for the n-th runcination is tn-1,n+2{p,q,...}
  4. Sterication - applied to 5-polytopes and higher and creates uniform polytopes that exists between fourth alternate rectified forms.
    • Schläfli symbol for the n-th sterication is tn-1,n+3{p,q,...}

In addition combinations of truncations can be performed which also generate new uniform polytopes. For example a cantitruncation is a cantellation and truncation applied together.

If all truncations are applied at once the operation can be more generally called an omnitruncation.

[edit] Alternation

One special operation, called alternation removes alternate vertices on polytope with all even-sided faces. An alternation applied to an omnitruncated polytope is called a snub.

The resulting polytopes always can be constructed, and are not generally reflective, and also do not in general have uniform polytope solutions.

[edit] Classes of polytopes by dimension

  • Uniform polychoron:
    • Convex forms
      • 6 convex regular polychora
      • 41 convex uniform polychora;
      • 18 convex hyperprisms based on the Platonic and Archimedean solids (including the cube-prism, better known as the regular tesseract);
      • an infinite set of hyperprisms based on the convex antiprisms;
      • an infinite set of convex duoprisms;
    • Nonconvex forms
      • 10 nonconvex regular polychora (Schläfli-Hess polychora)
      • 57 nonconvex hyperprisms based on the nonconvex uniform polyhedra;
      • an unknown number of nonconvex nonprismatic uniform polychora (over a thousand have been found);
      • an infinite set of hyperprisms based on the nonconvex antiprisms;
      • an infinite set of nonconvex duoprisms based on star polygons.

Higher dimensional uniform polytopes are not fully known. Most may be generated from a Wythoff construction applied to the regular forms.

Regular n-polytope families include the simplex, hypercube, and cross-polytope.

The demihypercube family, derived from the hypercubes by removing alternate vertices, includes the tetrahedron derived from the cube and the 16-cell derived from the tesseract. Higher members of the family are uniform but not regular.

[edit] Families of convex uniform polytopes

Families of convex uniform polytopes are defined by Coxeter groups. In addition prismatic families exist as products of this groups.

Categorical regular and prismatic family groups, up to 8-polytopes, are given below. Each permutation of indices of regular polytopes defines another family.

The Coxeter-Dynkin diagram is given for the first form in each family. Every combination of rings, with each prismatic group having at least one ring, produces another uniform primatic polytope.

[edit] Convex uniform polytope families by dimension

[edit] 1-polytope

[edit] 2-polytope

    1. D2p: [p] Image:CDW_dot.pngImage:CDW_p.pngImage:CDW_dot.png

[edit] 3-polytope

    1. A3: [3,3] Image:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.png
    2. C3: [4,3] Image:CDW_dot.pngImage:CDW_4.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.png
    3. G3: [5,3] Image:CDW_dot.pngImage:CDW_5.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.png
    4. D2pxA1: [p] x [ ] Image:CDW_dot.pngImage:CDW_p.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.png

[edit] 4-polytope

    1. A4: [3,3,3] Image:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.png
    2. C4: [4,3,3] Image:CDW_dot.pngImage:CDW_4.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.png
    3. F4: [3,4,3] Image:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_4.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.png
    4. G4: [5,3,3] Image:CDW_dot.pngImage:CDW_5.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.png
    5. B4: Image:CD dot.pngImage:CD 3.pngImage:CD_downbranch-00.pngImage:CD 3.pngImage:CD dot.png
    6. A3xA1: [3,3] x [ ] - Image:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.png
    7. C3xA1: [4,3] x [ ] - Image:CDW_dot.pngImage:CDW_4.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.png
    8. G3xA1: [5,3] x [ ] - Image:CDW_dot.pngImage:CDW_5.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.png
    9. D2pxD2q: [p] x [q] Image:CDW_dot.pngImage:CDW_p.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_q.pngImage:CDW_dot.png

[edit] 5-polytope

    1. A5: [3,3,3,3] Image:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.png
    2. C5: [4,3,3,3] Image:CDW_dot.pngImage:CDW_4.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.png
    3. B5: Image:CD dot.pngImage:CD 3.pngImage:CD_downbranch-00.pngImage:CD 3.pngImage:CD dot.pngImage:CD 3.pngImage:CD dot.png
    4. A4xA1: [3,3,3] x [ ] Image:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW 2.pngImage:CDW dot.png
    5. C4xA1: [4,3,3] x [ ] Image:CDW_dot.pngImage:CDW_4.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW 2.pngImage:CDW dot.png
    6. F4xA1: [3,4,3] x [ ] Image:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_4.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW 2.pngImage:CDW dot.png
    7. G4xA1: [5,3,3] x [ ] Image:CDW_dot.pngImage:CDW_5.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW 2.pngImage:CDW dot.png
    8. B4xA1: Image:CD dot.pngImage:CD 3.pngImage:CD_downbranch-00.pngImage:CD 3.pngImage:CD dot.pngImage:CD 2.pngImage:CD dot.png
    9. A3xD2p: [3,3] x [p] - Image:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW p.pngImage:CDW dot.png
    10. C3xD2p: [4,3] x [p] - Image:CDW_dot.pngImage:CDW_4.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW p.pngImage:CDW dot.png
    11. G3xD2p: [5,3] x [p] - Image:CDW_dot.pngImage:CDW_5.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW dot.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW p.pngImage:CDW dot.png
    12. D2pxD2qxA1: [p] x [q] x [ ] Image:CDW_dot.pngImage:CDW_p.pngImage:CDW_dot.pngImage:CDW 2.pngImage:CDW_dot.pngImage:CDW_q.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.png

[edit] 6-polytope

    1. A6:[3,3,3,3,3] Image:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.png
    2. C6:[4,3,3,3,3] Image:CDW_dot.pngImage:CDW_4.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.png
    3. B6: Image:CD dot.pngImage:CD 3.pngImage:CD_downbranch-00.pngImage:CD 3.pngImage:CD dot.pngImage:CD 3.pngImage:CD dot.pngImage:CD 3.pngImage:CD dot.png
    4. E6: Image:CD dot.pngImage:CD 3.pngImage:CD dot.pngImage:CD 3.pngImage:CD_downbranch-00.pngImage:CD 3.pngImage:CD dot.pngImage:CD 3.pngImage:CD dot.png
    5. A5xA1: [3,3,3,3] x [ ] Image:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.png
    6. C5xA1:[4,3,3,3] x [ ] Image:CDW_dot.pngImage:CDW_4.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.png
    7. B5xA1: Image:CD dot.pngImage:CD 3.pngImage:CD_downbranch-00.pngImage:CD 3.pngImage:CD dot.pngImage:CD 3.pngImage:CD dot.pngImage:CD 2.pngImage:CD dot.png
    8. A4xD2p: [3,3,3] x [p] Image:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_p.pngImage:CDW_dot.png
    9. C4xD2p: [4,3,3] x [p] Image:CDW_dot.pngImage:CDW_4.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_p.pngImage:CDW_dot.png
    10. F4xD2p: [3,4,3] x [p] Image:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_4.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_p.pngImage:CDW_dot.png
    11. G4xD2p: [5,3,3] x [p] Image:CDW_dot.pngImage:CDW_5.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_p.pngImage:CDW_dot.png
    12. B4xD2p: Image:CD dot.pngImage:CD 3.pngImage:CD_downbranch-00.pngImage:CD 3.pngImage:CD dot.pngImage:CD_2.pngImage:CD_dot.pngImage:CD_p.pngImage:CD_dot.png
    13. A3xA3: [3,3] x [3,3] Image:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.png
    14. A3xC3: [3,3] x [4,3] Image:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_4.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.png
    15. A3xG3: [3,3] x [5,3] Image:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_5.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.png
    16. C3xC3: [4,3] x [4,3] Image:CDW_dot.pngImage:CDW_4.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_4.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.png
    17. C3xG3: [4,3] x [5,3]Image:CDW_dot.pngImage:CDW_4.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_5.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.png
    18. G3xA3: [5,3] x [5,3] Image:CDW_dot.pngImage:CDW_5.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_5.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.png
    19. A3xD2pxA1: [3,3] x [p] x [ ] Image:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_p.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.png
    20. C3xD2pxA1: [4,3] x [p] x [ ] Image:CDW_dot.pngImage:CDW_4.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_p.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.png
    21. G3xD2pxA1: [5,3] x [p] x [ ] Image:CDW_dot.pngImage:CDW_5.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_p.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.png
    22. D2pxD2qxD2r: [p] x [q] x [r] Image:CDW_dot.pngImage:CDW_p.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_q.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_r.pngImage:CDW_dot.png - triprism

[edit] 7-polytope

    1. A7: [36] Image:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.png
    2. C7: [4,35] Image:CDW_dot.pngImage:CDW_4.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.png
    3. B7: [34,1,1] Image:CD dot.pngImage:CD 3.pngImage:CD_downbranch-00.pngImage:CD 3.pngImage:CD dot.pngImage:CD 3.pngImage:CD dot.pngImage:CD 3.pngImage:CD dot.pngImage:CD 3.pngImage:CD dot.png
    4. E7: [33,2,1] Image:CD dot.pngImage:CD 3.pngImage:CD dot.pngImage:CD 3.pngImage:CD_downbranch-00.pngImage:CD 3.pngImage:CD dot.pngImage:CD 3.pngImage:CD dot.pngImage:CD 3.pngImage:CD dot.png
    5. A6xA1: [35] x [ ] Image:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.png
    6. C6xA1: [4,34] x [ ] Image:CDW_dot.pngImage:CDW_4.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.png
    7. B6xA1: [33,1,1] x [ ] Image:CD dot.pngImage:CD 3.pngImage:CD_downbranch-00.pngImage:CD 3.pngImage:CD dot.pngImage:CD 3.pngImage:CD dot.pngImage:CD 3.pngImage:CD dot.pngImage:CD 2.pngImage:CD dot.png
    8. E6xA1: [32,2,1] x [ ] Image:CD dot.pngImage:CD 3.pngImage:CD dot.pngImage:CD 3.pngImage:CD_downbranch-00.pngImage:CD 3.pngImage:CD dot.pngImage:CD 3.pngImage:CD dot.pngImage:CD 2.pngImage:CD dot.png
    9. A5xD2p: [3,3,3] x [p] Image:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW 2.pngImage:CDW dot.pngImage:CDW p.pngImage:CDW dot.png
    10. C5xD2p: [4,3,3] x [p] Image:CDW_dot.pngImage:CDW_4.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW 2.pngImage:CDW dot.pngImage:CDW p.pngImage:CDW dot.png
    11. B5xD2p: [32,1,1] x [p] Image:CD dot.pngImage:CD 3.pngImage:CD_downbranch-00.pngImage:CD 3.pngImage:CD dot.pngImage:CD 3.pngImage:CD dot.pngImage:CD 2.pngImage:CD dot.pngImage:CD p.pngImage:CD dot.png
    12. A4xA3: [3,3,3] x [3,3] Image:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.png
    13. A4xC3: [3,3,3] x [4,3] Image:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_4.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.png
    14. A4xG3: [3,3,3] x [5,3] Image:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_5.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.png
    15. C4xA3: [4,3,3] x [3,3] Image:CDW_dot.pngImage:CDW_4.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.png
    16. C4xC3: [4,3,3] x [4,3] Image:CDW_dot.pngImage:CDW_4.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_4.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.png
    17. C4xG3: [4,3,3] x [5,3] Image:CDW_dot.pngImage:CDW_4.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_5.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.png
    18. G4xA3: [5,3,3] x [3,3] Image:CDW_dot.pngImage:CDW_5.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.png
    19. G4xC3: [5,3,3] x [4,3] Image:CDW_dot.pngImage:CDW_5.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_4.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.png
    20. G4xG3: [5,3,3] x [5,3] Image:CDW_dot.pngImage:CDW_5.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_5.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.png
    21. F4xA3: [3,4,3] x [3,3] Image:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_4.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.png
    22. F4xC3: [3,4,3] x [4,3] Image:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_4.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_4.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.png
    23. F4xG3: [3,4,3] x [5,3] Image:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_4.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_5.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.png
    24. B4xA3: [31,1,1] x [3,3] Image:CD dot.pngImage:CD 3.pngImage:CD_downbranch-00.pngImage:CD 3.pngImage:CD dot.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.png
    25. B4xC3: [31,1,1] x [4,3] Image:CD dot.pngImage:CD 3.pngImage:CD_downbranch-00.pngImage:CD 3.pngImage:CD dot.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_4.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.png
    26. B4xG3: [31,1,1] x [5,3] Image:CD dot.pngImage:CD 3.pngImage:CD_downbranch-00.pngImage:CD 3.pngImage:CD dot.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_5.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.png
    27. A4xD2pxA1: [3,3,3] x [p] x [ ] Image:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW 2.pngImage:CDW dot.pngImage:CDW p.pngImage:CDW dot.pngImage:CDW 2.pngImage:CDW dot.png
    28. C4xD2pxA1: [4,3,3] x [p] x [ ] Image:CDW_dot.pngImage:CDW_4.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW 2.pngImage:CDW dot.pngImage:CDW p.pngImage:CDW dot.pngImage:CDW 2.pngImage:CDW dot.png
    29. F4xD2pxA1: [3,4,3] x [p] x [ ] Image:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_4.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW 2.pngImage:CDW dot.pngImage:CDW p.pngImage:CDW dot.pngImage:CDW 2.pngImage:CDW dot.png
    30. G4xD2pxA1: [5,3,3] x [p] x [ ] Image:CDW_dot.pngImage:CDW_5.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW 2.pngImage:CDW dot.pngImage:CDW p.pngImage:CDW dot.pngImage:CDW 2.pngImage:CDW dot.png
    31. B4xD2pxA1: [31,1,1] x [p] x [ ] Image:CD dot.pngImage:CD 3.pngImage:CD_downbranch-00.pngImage:CD 3.pngImage:CD dot.pngImage:CDW 2.pngImage:CDW dot.pngImage:CDW p.pngImage:CDW dot.pngImage:CDW 2.pngImage:CDW dot.png
    32. A3xA3xA1: [3,3] x [3,3] x [ ] Image:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.png
    33. A3xC3xA1: [3,3] x [4,3] x [ ] Image:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_4.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.png
    34. A3xG3xA1: [3,3] x [5,3] x [ ] Image:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_5.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.png
    35. C3xC3xA1: [4,3] x [4,3] x [ ] Image:CDW_dot.pngImage:CDW_4.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_4.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.png
    36. C3xG3xA1: [4,3] x [5,3] x [ ] Image:CDW_dot.pngImage:CDW_4.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_5.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.png
    37. G3xA3xA1: [5,3] x [5,3] x [ ] Image:CDW_dot.pngImage:CDW_5.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_5.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.png
    38. A3xD2pxD2q: [3,3] x [p] x [q] Image:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_p.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_q.pngImage:CDW_dot.png
    39. C3xD2pxD2q: [4,3] x [p] x [q] Image:CDW_dot.pngImage:CDW_4.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_p.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_q.pngImage:CDW_dot.png
    40. G3xD2pxD2q: [5,3] x [p] x [q] Image:CDW_dot.pngImage:CDW_5.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_p.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_q.pngImage:CDW_dot.png
    41. D2pxD2qxD2rA1: [p] x [q] x [r] x [ ] Image:CDW_dot.pngImage:CDW_p.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_q.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_r.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.png

[edit] 8-polytope (incomplete)

    1. A8: [3,3,3,3,3,3,3] Image:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.png
    2. C8: [4,3,3,3,3,3,3] Image:CDW_dot.pngImage:CDW_4.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.png
    3. B8: Image:CD dot.pngImage:CD 3.pngImage:CD_downbranch-00.pngImage:CD 3.pngImage:CD dot.pngImage:CD 3.pngImage:CD dot.pngImage:CD 3.pngImage:CD dot.pngImage:CD 3.pngImage:CD dot.pngImage:CD 3.pngImage:CD dot.png
    4. E8: Image:CD dot.pngImage:CD 3b.pngImage:CD dot.pngImage:CD 3b.pngImage:CD_downbranch-00.pngImage:CD 3b.pngImage:CD dot.pngImage:CD 3b.pngImage:CD dot.pngImage:CD 3b.pngImage:CD dot.pngImage:CD 3b.pngImage:CD dot.png
    5. A7xA1: [3,3,3,3,3,3] x [ ] Image:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.png
    6. C7xA1: [4,3,3,3,3,3] x [ ] Image:CDW_dot.pngImage:CDW_4.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_3.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.png
    7. B7xA1: Image:CD dot.pngImage:CD 3.pngImage:CD_downbranch-00.pngImage:CD 3.pngImage:CD dot.pngImage:CD 3.pngImage:CD dot.pngImage:CD 3.pngImage:CD dot.pngImage:CD 3.pngImage:CD dot.pngImage:CD 2.pngImage:CD dot.png
    8. [p,q,r,s,t] x [u] Image:CDW_dot.pngImage:CDW_p.pngImage:CDW_dot.pngImage:CDW_q.pngImage:CDW_dot.pngImage:CDW_r.pngImage:CDW_dot.pngImage:CDW_s.pngImage:CDW_dot.pngImage:CDW_t.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_u.pngImage:CDW_dot.png
    9. [p,q,r,s] x [t,u] Image:CDW_dot.pngImage:CDW_p.pngImage:CDW_dot.pngImage:CDW_q.pngImage:CDW_dot.pngImage:CDW_r.pngImage:CDW_dot.pngImage:CDW_s.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_t.pngImage:CDW_dot.pngImage:CDW_u.pngImage:CDW_dot.png
    10. [p,q,r] x [s,t,u] Image:CDW_dot.pngImage:CDW_p.pngImage:CDW_dot.pngImage:CDW_q.pngImage:CDW_dot.pngImage:CDW_r.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_s.pngImage:CDW_dot.pngImage:CDW_t.pngImage:CDW_dot.pngImage:CDW_u.pngImage:CDW_dot.png
    11. [p,q,r,s] x [t] x [ ] Image:CDW_dot.pngImage:CDW_p.pngImage:CDW_dot.pngImage:CDW_q.pngImage:CDW_dot.pngImage:CDW_r.pngImage:CDW_dot.pngImage:CDW_s.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_t.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.png
    12. [p,q,r] x [s,t] x [ ] Image:CDW_dot.pngImage:CDW_p.pngImage:CDW_dot.pngImage:CDW_q.pngImage:CDW_dot.pngImage:CDW_r.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_s.pngImage:CDW_dot.pngImage:CDW_t.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.png
    13. [p,q,r] x [s] x [t] Image:CDW_dot.pngImage:CDW_p.pngImage:CDW_dot.pngImage:CDW_q.pngImage:CDW_dot.pngImage:CDW_r.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_s.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_t.pngImage:CDW_dot.png
    14. [p,q] x [r,s] x [t] Image:CDW_dot.pngImage:CDW_p.pngImage:CDW_dot.pngImage:CDW_q.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_r.pngImage:CDW_dot.pngImage:CDW_s.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_t.pngImage:CDW_dot.png
    15. [p,q] x [r] x [s] x [ ] Image:CDW_dot.pngImage:CDW_p.pngImage:CDW_dot.pngImage:CDW_q.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_r.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_s.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.png
    16. [p] x [q] x [r] x [s] Image:CDW_dot.pngImage:CDW_p.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_q.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_r.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_s.pngImage:CDW_dot.png - tetraprism

Special cases of products become hypercubes:

  • [ ] x [ ] = [4] Image:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.png
  • [ ] x [ ] x [ ] = [4,3] Image:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.png
  • [ ] x [ ] x [ ] = [4,3,3] Image:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.png
  • [ ] x [ ] x [ ] x [ ] = [4,3,3,3] Image:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dot.png
  • ...

[edit] Uniform polygons

Regular polygons, represented by Schläfli symbol {p} for a p-gon. Regular polygons are self-dual, so the rectification produces the same polygon. The uniform truncation operation doubles the sides to {2p}. The snub operation, alternatingly truncating the truncation returns it back to the original polygon {p}. Thus all uniform polygons are also regular.

Operation Extended
Schläfli
Symbols
Regular
result
Coxeter-
Dynkin
Diagram
Position
(1) (0)
Parent t0{p} {p} Image:CDW_ring.pngImage:CDW_p.pngImage:CDW_dot.png Image:CDW_ring.pngImage:CDW_2.pngImage:CDW_dash.png
{}
Image:CDW_dash.pngImage:CDW_2.pngImage:CDW_dot.png
--
Rectified
(Dual)
t1{p} {p} Image:CDW_dot.pngImage:CDW_p.pngImage:CDW_ring.png Image:CDW_dot.pngImage:CDW_2.pngImage:CDW_dash.png
--
Image:CDW_dash.pngImage:CDW_2.pngImage:CDW_ring.png
{}
Truncated t0,1{p} {2p} Image:CDW_ring.pngImage:CDW_p.pngImage:CDW_ring.png Image:CDW_ring.pngImage:CDW_2.pngImage:CDW_dash.png
{}
Image:CDW_dash.pngImage:CDW_2.pngImage:CDW_ring.png
{}
Snub s{p} {p} Image:CDW_hole.pngImage:CDW_p.pngImage:CDW_hole.png -- --

[edit] Uniform polyhedra and tilings

Every regular polyhedron or tiling {p,q} has these five operations that create semiregular polyhedra. The short-hand notation is equivalent to the longer name. For instance, t{3,3} simply means truncated tetrahedron.

The vertical notation is used for dual-symmetric operations - those that generate the same polyhedron from {p,q} as {q,p}.

A second extended notation, also used by Coxeter applies to all dimensions, and are specified by a t followed by a list of indices corresponding to Wythoff construction mirrors. (They also correspond to ringed nodes in a Coxeter-Dynkin diagram.)

In each a Wythoff construction operational name is given first. Second some have alternate terminology (given in parentheses) apply only for a given dimension. Specifically omnitruncation and expansion, as well as dual relations apply differently in each dimension.

The final columns offer the elements centered on each position. A single positional index is a node. A double positional index is an edge. A triple positional index is the triangle interior.

The symbol -- implies a vertex at the position. The symbol { } implies an edge at that position. The symbol { }x{ } is a square face {4}.

Operation Extended
Schläfli
Symbols
Coxeter-
Dynkin
Diagram
Wythoff
symbol
Position
(2) (1) (0) (0,1) (0,2) (1,2)
Parent \begin{Bmatrix} p , q \end{Bmatrix} t0{p,q} Image:CDW_ring.pngImage:CDW_p.pngImage:CDW_dot.pngImage:CDW_q.pngImage:CDW_dot.png q | 2 p Image:CDW_ring.pngImage:CDW_p.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dash.png
{p}
Image:CDW_ring.pngImage:CDW_2.pngImage:CDW_dash.pngImage:CDW_2.pngImage:CDW_dot.png
{}
Image:CDW_dash.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_q.pngImage:CDW_dot.png
--
Image:CDW_dash.pngImage:CDW_2.pngImage:CDW_dash.pngImage:CDW_2.pngImage:CDW_dot.png
--
Image:CDW_dash.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dash.png
--
Image:CDW_ring.pngImage:CDW_2.pngImage:CDW_dash.pngImage:CDW_2.pngImage:CDW_dash.png
{}
Rectified \begin{Bmatrix} p \\ q \end{Bmatrix} t1{p,q} Image:CDW_dot.pngImage:CDW_p.pngImage:CDW_ring.pngImage:CDW_q.pngImage:CDW_dot.png 2 | p q Image:CDW_dot.pngImage:CDW_p.pngImage:CDW_ring.pngImage:CDW_2.pngImage:CDW_dash.png
{p}
Image:CDW_dot.pngImage:CDW_2.pngImage:CDW_dash.pngImage:CDW_2.pngImage:CDW_dot.png
--
Image:CDW_dash.pngImage:CDW_2.pngImage:CDW_ring.pngImage:CDW_q.pngImage:CDW_dot.png
{q}
Image:CDW_dash.pngImage:CDW_2.pngImage:CDW_dash.pngImage:CDW_2.pngImage:CDW_dot.png
--
Image:CDW_dash.pngImage:CDW_2.pngImage:CDW_ring.pngImage:CDW_2.pngImage:CDW_dash.png
{}
Image:CDW_dot.pngImage:CDW_2.pngImage:CDW_dash.pngImage:CDW_2.pngImage:CDW_dash.png
--
Birectified
(or dual)
\begin{Bmatrix} q , p \end{Bmatrix} t2{p,q} Image:CDW_dot.pngImage:CDW_p.pngImage:CDW_dot.pngImage:CDW_q.pngImage:CDW_ring.png p | 2 q Image:CDW_dot.pngImage:CDW_p.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dash.png
--
Image:CDW_dot.pngImage:CDW_2.pngImage:CDW_dash.pngImage:CDW_2.pngImage:CDW_ring.png
{}
Image:CDW_dash.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_q.pngImage:CDW_ring.png
{q}
Image:CDW_dash.pngImage:CDW_2.pngImage:CDW_dash.pngImage:CDW_2.pngImage:CDW_ring.png
{}
Image:CDW_dash.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dash.png
--
Image:CDW_dot.pngImage:CDW_2.pngImage:CDW_dash.pngImage:CDW_2.pngImage:CDW_dash.png
--
Truncated t\begin{Bmatrix} p , q \end{Bmatrix} t0,1{p,q} Image:CDW_ring.pngImage:CDW_p.pngImage:CDW_ring.pngImage:CDW_q.pngImage:CDW_dot.png 2 q | p Image:CDW_ring.pngImage:CDW_p.pngImage:CDW_ring.pngImage:CDW_2.pngImage:CDW_dash.png
{2p}
Image:CDW_ring.pngImage:CDW_2.pngImage:CDW_dash.pngImage:CDW_2.pngImage:CDW_dot.png
{}
Image:CDW_dash.pngImage:CDW_2.pngImage:CDW_ring.pngImage:CDW_q.pngImage:CDW_dot.png
{q}
Image:CDW_dash.pngImage:CDW_2.pngImage:CDW_dash.pngImage:CDW_2.pngImage:CDW_dot.png
--
Image:CDW_dash.pngImage:CDW_2.pngImage:CDW_ring.pngImage:CDW_2.pngImage:CDW_dash.png
{}
Image:CDW_ring.pngImage:CDW_2.pngImage:CDW_dash.pngImage:CDW_2.pngImage:CDW_dash.png
{}
Bitruncated
(or truncated dual)
t\begin{Bmatrix} q , p \end{Bmatrix} t1,2{p,q} Image:CDW_dot.pngImage:CDW_p.pngImage:CDW_ring.pngImage:CDW_q.pngImage:CDW_ring.png 2 p | q Image:CDW_dot.pngImage:CDW_p.pngImage:CDW_ring.pngImage:CDW_2.pngImage:CDW_dash.png
{p}
Image:CDW_dot.pngImage:CDW_2.pngImage:CDW_dash.pngImage:CDW_2.pngImage:CDW_ring.png
{}
Image:CDW_dash.pngImage:CDW_2.pngImage:CDW_ring.pngImage:CDW_q.pngImage:CDW_ring.png
{2q}
Image:CDW_dash.pngImage:CDW_2.pngImage:CDW_dash.pngImage:CDW_2.pngImage:CDW_ring.png
{}
Image:CDW_dash.pngImage:CDW_2.pngImage:CDW_ring.pngImage:CDW_2.pngImage:CDW_dash.png
{}
Image:CDW_dot.pngImage:CDW_2.pngImage:CDW_dash.pngImage:CDW_2.pngImage:CDW_dash.png
--
Cantellated
(or expanded)
r\begin{Bmatrix} p \\ q \end{Bmatrix} t0,2{p,q} Image:CDW_ring.pngImage:CDW_p.pngImage:CDW_dot.pngImage:CDW_q.pngImage:CDW_ring.png p q | 2 Image:CDW_ring.pngImage:CDW_p.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dash.png
{p}
Image:CDW_ring.pngImage:CDW_2.pngImage:CDW_dash.pngImage:CDW_2.pngImage:CDW_ring.png
{}x{}
Image:CDW_dash.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_q.pngImage:CDW_ring.png
{q}
Image:CDW_dash.pngImage:CDW_2.pngImage:CDW_dash.pngImage:CDW_2.pngImage:CDW_ring.png
{}
Image:CDW_dash.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dash.png
--
Image:CDW_ring.pngImage:CDW_2.pngImage:CDW_dash.pngImage:CDW_2.pngImage:CDW_dash.png
{}
Cantitruncated
(or omnitruncated)
t\begin{Bmatrix} p \\ q \end{Bmatrix} t0,1,2{p,q} Image:CDW_ring.pngImage:CDW_p.pngImage:CDW_ring.pngImage:CDW_q.pngImage:CDW_ring.png 2 p q | Image:CDW_ring.pngImage:CDW_p.pngImage:CDW_ring.pngImage:CDW_2.pngImage:CDW_dash.png
{2p}
Image:CDW_ring.pngImage:CDW_2.pngImage:CDW_dash.pngImage:CDW_2.pngImage:CDW_ring.png
{}x{}
Image:CDW_dash.pngImage:CDW_2.pngImage:CDW_ring.pngImage:CDW_q.pngImage:CDW_ring.png
{2q}
Image:CDW_dash.pngImage:CDW_2.pngImage:CDW_dash.pngImage:CDW_2.pngImage:CDW_ring.png
{}
Image:CDW_dash.pngImage:CDW_2.pngImage:CDW_ring.pngImage:CDW_2.pngImage:CDW_dash.png
{}
Image:CDW_ring.pngImage:CDW_2.pngImage:CDW_dash.pngImage:CDW_2.pngImage:CDW_dash.png
{}
Snub s\begin{Bmatrix} p \\ q \end{Bmatrix} s{p,q} Image:CDW_hole.pngImage:CDW_p.pngImage:CDW_hole.pngImage:CDW_q.pngImage:CDW_hole.png | 2 p q {p} {3}
{3}
{q} -- -- --

Generating triangles

[edit] Uniform polychora and 3-space honeycombs

Example tetrahedron in cubic honeycomb cell.There are 3 right dihedral angles (2 intersecting perpendicular mirrors):Edges 1 to 2, 0 to 2, and 1 to 3.
Example tetrahedron in cubic honeycomb cell.
There are 3 right dihedral angles (2 intersecting perpendicular mirrors):
Edges 1 to 2, 0 to 2, and 1 to 3.
Summary chart of truncation operations
Summary chart of truncation operations

Every regular polytope can be seen as the images of a fundamental region in a small number of mirrors. In a 4-dimensional polytope (or 3-dimensional cubic honeycomb) the fundamental region is bounded by four mirrors. A mirror in 4-space is a three-dimensional hyperplane, but it is more convenient for our purposes to consider only its two-dimensional intersection with the three-dimensional surface of the hypersphere; thus the mirrors form an irregular tetrahedron.

Each of the sixteen regular polychora is generated by one of four symmetry groups, as follows:

  • group [3,3,3]: the 5-cell {3,3,3}, which is self-dual;
  • group [3,3,4]: 16-cell {3,3,4} and its dual tesseract {4,3,3};
  • group [3,4,3]: the 24-cell {3,4,3}, self-dual;
  • group [3,3,5]: 600-cell {3,3,5}, its dual 120-cell {5,3,3}, and their ten regular stellations.

(The groups are named in Coxeter notation.)

A set of up to 13 (nonregular) uniform polychora can be generated from each regular polychoron and its dual. Eight of the convex uniform honeycombs in Euclidean 3-space are analogously generated from the cubic honeycomb {4,3,4}.

For a given symmetry simplex, a generating point may be placed on any of the four vertices, 6 edges, 4 faces, or the interior volume. On each of these 15 elements there is a point whose images, reflected in the four mirrors, are the vertices of a uniform polychoron.

The extended Schläfli symbols are made by a t followed by inclusion of one to four subscripts 0,1,2,3. If there's one subscript, the generating point is on a corner of the fundamental region, i.e. a point where three mirrors meet. These corners are notated as

  • 0: vertex of the parent polychoron (center of the dual's cell)
  • 1: center of the parent's edge (center of the dual's face)
  • 2: center of the parent's face (center of the dual's edge)
  • 3: center of the parent's cell (vertex of the dual)

(For the two self-dual polychora, "dual" means a similar polychoron in dual position.) Two or more subscripts mean that the generating point is between the corners indicated.

The following table defines all 15 forms. Each trunction form can have from one to four cell types, located in positions 0,1,2,3 as defined above. The cells are labeled by polyhedral truncation notation.

  • An n-gonal prism is represented as : {n}x{2}.
  • The green background is shown on forms that are equivalent from either the parent or dual.
  • The red background shows truncations of the parent, and blue as truncations of the dual.
Operation Extended
Schläfli
symbols
Coxeter-
Dynkin
Diagram
Position
(3) (2) (1) (0)
Parent t0{p,q,r} Image:CDW_ring.pngImage:CDW_p.pngImage:CDW_dot.pngImage:CDW_q.pngImage:CDW_dot.pngImage:CDW_r.pngImage:CDW_dot.png Image:CDW_ring.pngImage:CDW_p.pngImage:CDW_dot.pngImage:CDW_q.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dash.png
{p,q}
Image:CDW_ring.pngImage:CDW_p.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dash.pngImage:CDW_2.pngImage:CDW_dot.png
{p}
Image:CDW_ring.pngImage:CDW_2.pngImage:CDW_dash.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_r.pngImage:CDW_dot.png
{}
Image:CDW_dash.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_q.pngImage:CDW_dot.pngImage:CDW_r.pngImage:CDW_dot.png
--
Rectified t1{p,q,r} Image:CDW_dot.pngImage:CDW_p.pngImage:CDW_ring.pngImage:CDW_q.pngImage:CDW_dot.pngImage:CDW_r.pngImage:CDW_dot.png Image:CDW_dot.pngImage:CDW_p.pngImage:CDW_ring.pngImage:CDW_q.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dash.png
t1{p,q}
Image:CDW_dot.pngImage:CDW_p.pngImage:CDW_ring.pngImage:CDW_2.pngImage:CDW_dash.pngImage:CDW_2.pngImage:CDW_dot.png
{p}
Image:CDW_dot.pngImage:CDW_2.pngImage:CDW_dash.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_r.pngImage:CDW_dot.png
--
Image:CDW_dash.pngImage:CDW_2.pngImage:CDW_ring.pngImage:CDW_q.pngImage:CDW_dot.pngImage:CDW_r.pngImage:CDW_dot.png
{q,r}
Birectified
(or rectified dual)
t2{p,q,r} Image:CDW_dot.pngImage:CDW_p.pngImage:CDW_dot.pngImage:CDW_q.pngImage:CDW_ring.pngImage:CDW_r.pngImage:CDW_dot.png Image:CDW_dot.pngImage:CDW_p.pngImage:CDW_dot.pngImage:CDW_q.pngImage:CDW_ring.pngImage:CDW_2.pngImage:CDW_dash.png
{q,p}
Image:CDW_dot.pngImage:CDW_p.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dash.pngImage:CDW_2.pngImage:CDW_dot.png
--
Image:CDW_dot.pngImage:CDW_2.pngImage:CDW_dash.pngImage:CDW_2.pngImage:CDW_ring.pngImage:CDW_r.pngImage:CDW_dot.png
{r}
Image:CDW_dash.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_q.pngImage:CDW_ring.pngImage:CDW_r.pngImage:CDW_dot.png
t1{q,r}
Trirectifed
(or dual)
t3{p,q,r} Image:CDW_dot.pngImage:CDW_p.pngImage:CDW_dot.pngImage:CDW_q.pngImage:CDW_dot.pngImage:CDW_r.pngImage:CDW_ring.png Image:CDW_dot.pngImage:CDW_p.pngImage:CDW_dot.pngImage:CDW_q.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dash.png
--
Image:CDW_dot.pngImage:CDW_p.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dash.pngImage:CDW_2.pngImage:CDW_ring.png
{}
Image:CDW_dot.pngImage:CDW_2.pngImage:CDW_dash.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_r.pngImage:CDW_ring.png
{r}
Image:CDW_dash.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_q.pngImage:CDW_dot.pngImage:CDW_r.pngImage:CDW_ring.png
t2{q,r}
Truncated t0,1{p,q,r} Image:CDW_ring.pngImage:CDW_p.pngImage:CDW_ring.pngImage:CDW_q.pngImage:CDW_dot.pngImage:CDW_r.pngImage:CDW_dot.png Image:CDW_ring.pngImage:CDW_p.pngImage:CDW_ring.pngImage:CDW_q.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dash.png
t0,1{p,q}
Image:CDW_ring.pngImage:CDW_p.pngImage:CDW_ring.pngImage:CDW_2.pngImage:CDW_dash.pngImage:CDW_2.pngImage:CDW_dot.png
{2p}
Image:CDW_ring.pngImage:CDW_2.pngImage:CDW_dash.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_r.pngImage:CDW_dot.png
{}
Image:CDW_dash.pngImage:CDW_2.pngImage:CDW_ring.pngImage:CDW_q.pngImage:CDW_dot.pngImage:CDW_r.pngImage:CDW_dot.png
{q,r}
Bitruncated t1,2{p,q,r} Image:CDW_dot.pngImage:CDW_p.pngImage:CDW_ring.pngImage:CDW_q.pngImage:CDW_ring.pngImage:CDW_r.pngImage:CDW_dot.png Image:CDW_dot.pngImage:CDW_p.pngImage:CDW_ring.pngImage:CDW_q.pngImage:CDW_ring.pngImage:CDW_2.pngImage:CDW_dash.png
t1,2{p,q}
Image:CDW_dot.pngImage:CDW_p.pngImage:CDW_ring.pngImage:CDW_2.pngImage:CDW_dash.pngImage:CDW_2.pngImage:CDW_dot.png
{p}
Image:CDW_dot.pngImage:CDW_2.pngImage:CDW_dash.pngImage:CDW_2.pngImage:CDW_ring.pngImage:CDW_r.pngImage:CDW_dot.png
{r}
Image:CDW_dash.pngImage:CDW_2.pngImage:CDW_ring.pngImage:CDW_q.pngImage:CDW_ring.pngImage:CDW_r.pngImage:CDW_dot.png
t0,1{q,r}
Tritruncated
(or truncated dual)
t2,3{p,q,r} Image:CDW_dot.pngImage:CDW_p.pngImage:CDW_dot.pngImage:CDW_q.pngImage:CDW_ring.pngImage:CDW_r.pngImage:CDW_ring.png Image:CDW_dot.pngImage:CDW_p.pngImage:CDW_dot.pngImage:CDW_q.pngImage:CDW_ring.pngImage:CDW_2.pngImage:CDW_dash.png
{q,p}
Image:CDW_dot.pngImage:CDW_p.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dash.pngImage:CDW_2.pngImage:CDW_ring.png
{}
Image:CDW_dot.pngImage:CDW_2.pngImage:CDW_dash.pngImage:CDW_2.pngImage:CDW_ring.pngImage:CDW_r.pngImage:CDW_ring.png
{2r}
Image:CDW_dash.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_q.pngImage:CDW_ring.pngImage:CDW_r.pngImage:CDW_ring.png
t1,2{q,r}
Cantellated t0,2{p,q,r} Image:CDW_ring.pngImage:CDW_p.pngImage:CDW_dot.pngImage:CDW_q.pngImage:CDW_ring.pngImage:CDW_r.pngImage:CDW_dot.png Image:CDW_ring.pngImage:CDW_p.pngImage:CDW_dot.pngImage:CDW_q.pngImage:CDW_ring.pngImage:CDW_2.pngImage:CDW_dash.png
t0,2{p,q}
Image:CDW_ring.pngImage:CDW_p.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dash.pngImage:CDW_2.pngImage:CDW_dot.png
{p}
Image:CDW_ring.pngImage:CDW_2.pngImage:CDW_dash.pngImage:CDW_2.pngImage:CDW_ring.pngImage:CDW_r.pngImage:CDW_dot.png
{}x{r}
Image:CDW_dash.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_q.pngImage:CDW_ring.pngImage:CDW_r.pngImage:CDW_dot.png
t1{q,r}
Bicantellated
(or cantellated dual)
t1,3{p,q,r} Image:CDW_dot.pngImage:CDW_p.pngImage:CDW_ring.pngImage:CDW_q.pngImage:CDW_dot.pngImage:CDW_r.pngImage:CDW_ring.png Image:CDW_dot.pngImage:CDW_p.pngImage:CDW_ring.pngImage:CDW_q.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dash.png
t1{p,q}
Image:CDW_dot.pngImage:CDW_p.pngImage:CDW_ring.pngImage:CDW_2.pngImage:CDW_dash.pngImage:CDW_2.pngImage:CDW_ring.png
{p}x{}
Image:CDW_dot.pngImage:CDW_2.pngImage:CDW_dash.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_r.pngImage:CDW_ring.png
{r}
Image:CDW_dash.pngImage:CDW_2.pngImage:CDW_ring.pngImage:CDW_q.pngImage:CDW_dot.pngImage:CDW_r.pngImage:CDW_ring.png
t0,2{q,r}
Runcinated
(or expanded)
t0,3{p,q,r} Image:CDW_ring.pngImage:CDW_p.pngImage:CDW_dot.pngImage:CDW_q.pngImage:CDW_dot.pngImage:CDW_r.pngImage:CDW_ring.png Image:CDW_ring.pngImage:CDW_p.pngImage:CDW_dot.pngImage:CDW_q.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dash.png
{p,q}
Image:CDW_ring.pngImage:CDW_p.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dash.pngImage:CDW_2.pngImage:CDW_ring.png
{p}x{}
Image:CDW_ring.pngImage:CDW_2.pngImage:CDW_dash.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_r.pngImage:CDW_ring.png
{}x{r}
Image:CDW_dash.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_q.pngImage:CDW_dot.pngImage:CDW_r.pngImage:CDW_ring.png
t2{q,r}
Cantitruncated t0,1,2{p,q,r} Image:CDW_ring.pngImage:CDW_p.pngImage:CDW_ring.pngImage:CDW_q.pngImage:CDW_ring.pngImage:CDW_r.pngImage:CDW_dot.png Image:CDW_ring.pngImage:CDW_p.pngImage:CDW_ring.pngImage:CDW_q.pngImage:CDW_ring.pngImage:CDW_2.pngImage:CDW_dash.png
t0,1,2{p,q}
Image:CDW_ring.pngImage:CDW_p.pngImage:CDW_ring.pngImage:CDW_2.pngImage:CDW_dash.pngImage:CDW_2.pngImage:CDW_dot.png
{2p}
Image:CDW_ring.pngImage:CDW_2.pngImage:CDW_dash.pngImage:CDW_2.pngImage:CDW_ring.pngImage:CDW_r.pngImage:CDW_dot.png
{}x{r}
Image:CDW_dash.pngImage:CDW_2.pngImage:CDW_ring.pngImage:CDW_q.pngImage:CDW_ring.pngImage:CDW_r.pngImage:CDW_dot.png
t0,1{q,r}
Bicantitruncated
(or cantitruncated dual)
t1,2,3{p,q,r} Image:CDW_dot.pngImage:CDW_p.pngImage:CDW_ring.pngImage:CDW_q.pngImage:CDW_ring.pngImage:CDW_r.pngImage:CDW_ring.png Image:CDW_dot.pngImage:CDW_p.pngImage:CDW_ring.pngImage:CDW_q.pngImage:CDW_ring.pngImage:CDW_2.pngImage:CDW_dash.png
t1,2{p,q}
Image:CDW_dot.pngImage:CDW_p.pngImage:CDW_ring.pngImage:CDW_2.pngImage:CDW_dash.pngImage:CDW_2.pngImage:CDW_ring.png
{p}x{}
Image:CDW_dot.pngImage:CDW_2.pngImage:CDW_dash.pngImage:CDW_2.pngImage:CDW_ring.pngImage:CDW_r.pngImage:CDW_ring.png
{2r}
Image:CDW_dash.pngImage:CDW_2.pngImage:CDW_ring.pngImage:CDW_q.pngImage:CDW_ring.pngImage:CDW_r.pngImage:CDW_ring.png
t0,1,2{q,r}
Runcitruncated t0,1,3{p,q,r} Image:CDW_ring.pngImage:CDW_p.pngImage:CDW_ring.pngImage:CDW_q.pngImage:CDW_dot.pngImage:CDW_r.pngImage:CDW_ring.png Image:CDW_ring.pngImage:CDW_p.pngImage:CDW_ring.pngImage:CDW_q.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dash.png
t0,1{p,q}
Image:CDW_ring.pngImage:CDW_p.pngImage:CDW_ring.pngImage:CDW_2.pngImage:CDW_dash.pngImage:CDW_2.pngImage:CDW_ring.png
{2p}x{}
Image:CDW_ring.pngImage:CDW_2.pngImage:CDW_dash.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_r.pngImage:CDW_ring.png
{}x{r}
Image:CDW_dash.pngImage:CDW_2.pngImage:CDW_ring.pngImage:CDW_q.pngImage:CDW_dot.pngImage:CDW_r.pngImage:CDW_ring.png
t0,2{q,r}
Runcicantellated
(or runcitruncated dual)
t0,2,3{p,q,r} Image:CDW_ring.pngImage:CDW_p.pngImage:CDW_dot.pngImage:CDW_q.pngImage:CDW_ring.pngImage:CDW_r.pngImage:CDW_ring.png Image:CDW_ring.pngImage:CDW_p.pngImage:CDW_dot.pngImage:CDW_q.pngImage:CDW_ring.pngImage:CDW_2.pngImage:CDW_dash.png
t0,1,2{p,q}
Image:CDW_ring.pngImage:CDW_p.pngImage:CDW_dot.pngImage:CDW_2.pngImage:CDW_dash.pngImage:CDW_2.pngImage:CDW_ring.png
{p}x{}
Image:CDW_ring.pngImage:CDW_2.pngImage:CDW_dash.pngImage:CDW_2.pngImage:CDW_ring.pngImage:CDW_r.pngImage:CDW_ring.png
{}x{2r}
Image:CDW_dash.pngImage:CDW_2.pngImage:CDW_dot.pngImage:CDW_q.pngImage:CDW_ring.pngImage:CDW_r.pngImage:CDW_ring.png
t1,2{q,r}
Runcicantitruncated
(or omnitruncated)
t0,1,2,3{p,q,r} Image:CDW_ring.pngImage:CDW_p.pngImage:CDW_ring.pngImage:CDW_q.pngImage:CDW_ring.pngImage:CDW_r.pngImage:CDW_ring.png Image:CDW_ring.pngImage:CDW_p.pngImage:CDW_ring.pngImage:CDW_q.pngImage:CDW_ring.pngImage:CDW_2.pngImage:CDW_dash.png
t0,1,2{p,q}
Image:CDW_ring.pngImage:CDW_p.pngImage:CDW_ring.pngImage:CDW_2.pngImage:CDW_dash.pngImage:CDW_2.pngImage:CDW_ring.png
{2p}x{}
Image:CDW_ring.pngImage:CDW_2.pngImage:CDW_dash.pngImage:CDW_2.pngImage:CDW_ring.pngImage:CDW_r.pngImage:CDW_ring.png
{}x{2r}
Image:CDW_dash.pngImage:CDW_2.pngImage:CDW_ring.pngImage:CDW_q.pngImage:CDW_ring.pngImage:CDW_r.pngImage:CDW_ring.png
t0,1,2{q,r}

[edit] See also

[edit] External links

[edit] References

  • Norman Johnson Uniform Polytopes, Manuscript (1991)
    • N.W. Johnson: The Theory of Uniform Polytopes and Honeycombs, Ph.D. Dissertation, University of Toronto, 1966
  • A. Boole Stott: Geometrical deduction of semiregular from regular polytopes and space fillings, Verhandelingen of the Koninklijke academy van Wetenschappen width unit Amsterdam, Eerste Sectie 11,1, Amsterdam, 1910
  • H.S.M. Coxeter:
    • H.S.M. Coxeter, M.S. Longuet-Higgins und J.C.P. Miller: Uniform Polyhedra, Philosophical Transactions of the Royal Society of London, Londne, 1954
    • H.S.M. Coxeter, Regular Polytopes, 3rd Edition, Dover New York, 1973
  • Kaleidoscopes: Selected Writings of H.S.M. Coxeter, editied by F. Arthur Sherk, Peter McMullen, Anthony C. Thompson, Asia Ivic Weiss, Wiley-Interscience Publication, 1995, ISBN 978-0-471-01003-6 [1]
    • (Paper 22) H.S.M. Coxeter, Regular and Semi Regular Polytopes I, [Math. Zeit. 46 (1940) 380-407, MR 2,10]
    • (Paper 23) H.S.M. Coxeter, Regular and Semi-Regular Polytopes II, [Math. Zeit. 188 (1985) 559-591]
    • (Paper 24) H.S.M. Coxeter, Regular and Semi-Regular Polytopes III, [Math. Zeit. 200 (1988) 3-45]
  • Coxeter, Longuet-Higgins, Miller, Uniform polyhedra, Phil. Trans. 1954, 246 A, 401-50. (Extended Schläfli notation used)


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