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5 21 honeycomb - Wikipedia
521 honeycomb
Type Uniform honeycomb
Family k21 polytope
Schläfli symbol {3,3,3,3,3,32,1}
Coxeter symbol 521
Coxeter-Dynkin diagram
8-faces 511
{37}
7-faces {36}
Note that there are two distinct orbits of this 7-simplex under the honeycomb's full automorphism group.
6-faces {35}
5-faces {34}
4-faces {33}
Cells {32}
Faces {3}
Cell figure 121
Face figure 221
Edge figure 321
Vertex figure 421
Symmetry group , [35,2,1]

In geometry, the 521 honeycomb is a uniform tessellation of 8-dimensional Euclidean space. The symbol 521 is from Coxeter, named for the length of the 3 branches of its Coxeter-Dynkin diagram.[1]

By putting spheres at its vertices one obtains the densest-possible packing of spheres in 8 dimensions. This was proven by Maryna Viazovska in 2016 using the theory of modular forms. Viazovska was awarded the Fields Medal for this work in 2022.

This honeycomb was first studied by Gosset who called it a 9-ic semi-regular figure[2] (Gosset regarded honeycombs in n dimensions as degenerate n+1 polytopes).

Each vertex of the 521 honeycomb is surrounded by 2160 8-orthoplexes and 17280 8-simplicies.

The vertex figure of Gosset's honeycomb is the semiregular 421 polytope. It is the final figure in the k21 family.

This honeycomb is highly regular in the sense that its symmetry group (the affine Weyl group) acts transitively on the k-faces for k ≤ 6. All of the k-faces for k ≤ 7 are simplices.

Construction

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It is created by a Wythoff construction upon a set of 9 hyperplane mirrors in 8-dimensional space.

The facet information can be extracted from its Coxeter-Dynkin diagram.

               

Removing the node on the end of the 2-length branch leaves the 8-orthoplex, 611.

             

Removing the node on the end of the 1-length branch leaves the 8-simplex.

             

The vertex figure is determined by removing the ringed node and ringing the neighboring node. This makes the 421 polytope.

             

The edge figure is determined from the vertex figure by removing the ringed node and ringing the neighboring node. This makes the 321 polytope.

           

The face figure is determined from the edge figure by removing the ringed node and ringing the neighboring node. This makes the 221 polytope.

         

The cell figure is determined from the face figure by removing the ringed node and ringing the neighboring node. This makes the 121 polytope.

       

Kissing number

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Each vertex of this tessellation is the center of a 7-sphere in the densest packing in 8 dimensions; its kissing number is 240, represented by the vertices of its vertex figure 421.

E8 lattice

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  contains   as a subgroup of index 5760.[3] Both   and   can be seen as affine extensions of   from different nodes:  

  contains   as a subgroup of index 270.[4] Both   and   can be seen as affine extensions of   from different nodes:  

The vertex arrangement of 521 is called the E8 lattice.[5]

The E8 lattice can also be constructed as a union of the vertices of two 8-demicube honeycombs (called a D82 or D8+ lattice), as well as the union of the vertices of three 8-simplex honeycombs (called an A83 lattice):[6]

                =                            =                            

Regular complex honeycomb

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Using a complex number coordinate system, it can also be constructed as a   regular complex polytope, given the symbol 3{3}3{3}3{3}3{3}3, and Coxeter diagram          . Its elements are in relative proportion as 1 vertex, 80 3-edges, 270 3{3}3 faces, 80 3{3}3{3}3 cells and 1 3{3}3{3}3{3}3 Witting polytope cells.[7]

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The 521 is seventh in a dimensional series of semiregular polytopes, identified in 1900 by Thorold Gosset. Each member of the sequence has the previous member as its vertex figure. All facets of these polytopes are regular polytopes, namely simplexes and orthoplexes.

k21 figures in n dimensions
Space Finite Euclidean Hyperbolic
En 3 4 5 6 7 8 9 10
Coxeter
group
E3=A2A1 E4=A4 E5=D5 E6 E7 E8 E9 =   = E8+ E10 =   = E8++
Coxeter
diagram
                                                                                         
Symmetry [3−1,2,1] [30,2,1] [31,2,1] [32,2,1] [33,2,1] [34,2,1] [35,2,1] [36,2,1]
Order 12 120 1,920 51,840 2,903,040 696,729,600
Graph             - -
Name −121 021 121 221 321 421 521 621

See also

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Notes

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  1. ^ Coxeter, 1973, Chapter 5: The Kaleidoscope
  2. ^ Gosset, Thorold (1900). "On the regular and semi-regular figures in space of n dimensions". Messenger of Mathematics. 29: 43–48.
  3. ^ N.W. Johnson: Geometries and Transformations, (2018) 12.5: Euclidean Coxeter groups, p.294
  4. ^ Johnson (2011) p.177
  5. ^ "The Lattice E8".
  6. ^ Kaleidoscopes: Selected Writings of H. S. M. Coxeter, Paper 18, "Extreme forms" (1950)
  7. ^ Coxeter Regular Convex Polytopes, 12.5 The Witting polytope

References

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  • Coxeter The Beauty of Geometry: Twelve Essays, Dover Publications, 1999, ISBN 978-0-486-40919-1 (Chapter 3: Wythoff's Construction for Uniform Polytopes)
  • Coxeter, H. S. M. (1973). Regular Polytopes ((3rd ed.) ed.). New York: Dover Publications. ISBN 0-486-61480-8.
  • Kaleidoscopes: Selected Writings of H.S.M. Coxeter, edited by F. Arthur Sherk, Peter McMullen, Anthony C. Thompson, Asia Ivic Weiss, Wiley-Interscience Publication, 1995, ISBN 978-0-471-01003-6 [1]
    • (Paper 24) H.S.M. Coxeter, Regular and Semi-Regular Polytopes III, [Math. Zeit. 200 (1988) 3-45]
  • N.W. Johnson: Geometries and Transformations, (2015)
Space Family           /   /  
E2 Uniform tiling 0[3] δでるた3 hδでるた3 qδでるた3 Hexagonal
E3 Uniform convex honeycomb 0[4] δでるた4 hδでるた4 qδでるた4
E4 Uniform 4-honeycomb 0[5] δでるた5 hδでるた5 qδでるた5 24-cell honeycomb
E5 Uniform 5-honeycomb 0[6] δでるた6 hδでるた6 qδでるた6
E6 Uniform 6-honeycomb 0[7] δでるた7 hδでるた7 qδでるた7 222
E7 Uniform 7-honeycomb 0[8] δでるた8 hδでるた8 qδでるた8 133331
E8 Uniform 8-honeycomb 0[9] δでるた9 hδでるた9 qδでるた9 152251521
E9 Uniform 9-honeycomb 0[10] δでるた10 hδでるた10 qδでるた10
E10 Uniform 10-honeycomb 0[11] δでるた11 hδでるた11 qδでるた11
En-1 Uniform (n-1)-honeycomb 0[n] δでるたn hδでるたn qδでるたn 1k22k1k21