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List of spherical symmetry groups

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List of symmetry groups on the sphere

Spherical symmetry groups are also called point groups in three dimensions. This article is about the finite ones.

There are four fundamental symmetry classes which have triangular fundamental domains: dihedral, tetrahedral, octahedral, icosahedral. There are infinitely many dihedral symmetry groups.

The final classes, under other have digonal or monogonal fundamental domains.

Dihedral symmetry [2,n]

There are an infinite set of dihedral symmetries. n can be any positive integer 2 or greater (n = 1 is also possible, but these three symmetries are equal to C2, C2v, and C2h).

Name Schönflies
crystallographic
notation		 Coxeter
notation		 Orbifold
notation		 Order Fundamental
domain
Polyditropic Dn [2,n]+ 22n 2n
Polydiscopic Dnh [2,n] *22n 4n Image:Sphere symmetry group d2h.pngImage:Sphere symmetry group d3h.png
Polydigyros Dnd [2+,2n] 2*n 4n
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Tetrahedral symmetry [3,3]

Name Schönflies
crystallographic
notation		 Coxeter
notation		 Orbifold
notation		 Order Fundamental
domain
Chiral tetrahedral T [3,3]+ 332 12 Image:Sphere symmetry group t.png
Achiral tetrahedral Td [3,3] *332 24
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Pyritohedral Th [3+,4] 3*2 24 Image:Sphere symmetry group th.png

Octahedral symmetry [3,4]

Name Schönflies
crystallographic
notation		 Coxeter
notation		 Orbifold
notation		 Order Fundamental
domain
Chiral octahedral O [3,4]+ 432 24 Image:Sphere symmetry group o.svg
Achiral octahedral Oh [3,4] *432 48 Image:Sphere symmetry group oh.png

Icosahedral symmetry [3,5]

Name Schönflies
crystallographic
notation		 Coxeter
notation		 Orbifold
notation		 Order Fundamental
domain
Chiral icosahedral I [3,5]+ 532 60 Image:Sphere symmetry group i.png
Achiral icosahedral Ih [3,5] *532 120 Image:Sphere symmetry group ih.png

Other

These final forms have digonal or monogonal fundamental regions with Cyclic symmetries and reflection symmetry. There are four infinite sets with index n being any positive integer; for n=1 two cases are equal, so there are three; they are separately named.

Name Schönflies
crystallographic
notation		 Coxeter
notation		 Orbifold
notation		 Order Fundamental
domain
no symmetry (monotropic) C1 [1]+ 11 1 Image:Sphere symmetry group c1.png
discrete rotational symmetry (polytropic) Cn [n]+ nn n
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reflection symmetry (monoscopic) Cs = C1v = C1h [1] *11 2 Image:Sphere symmetry group cs.png
Polyscopic Cnv [n] *nn 2n Image:Sphere symmetry group c2v.pngImage:Sphere symmetry group c3v.png
Polygyros Cnh [2,n+] n* 2n
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inversion symmetry (monodromic) Ci = S2 [2+,2+] 1x 2
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Polydromic S2n [2+,2n+] nx 2n

Relation between orbifold notation and order

The order of each group is 2 divided by the orbifold Euler characteristic; the latter is 2 minus the sum of the feature values, assigned as follows:

  • n without or before * counts as (n−1)/n
  • n after * counts as (n−1)/(2n)
  • * and x count as 1

This can also be applied for wallpaper groups: for them, the sum of the feature values is 2, giving an infinite order; see orbifold Euler characteristic for wallpaper groups

See also

References

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