List of planar symmetry groups

This article summarizes the classes of discrete symmetry groups of the Euclidean plane. The symmetry groups are named here by three naming schemes: International notation, orbifold notation, and Coxeter notation. There are three kinds of symmetry groups of the plane:

Rosette groups

There are two families of discrete two-dimensional point groups, and they are specified with parameter n, which is the order of the group of the rotations in the group.

Family	Intl (orbifold)	Schön.	Geo ^[1] Coxeter	Order	Examples
Cyclic symmetry	n (n•)	C_n	n [n]⁺	n	C₁, [ ]⁺ (•)	C₂, [2]⁺ (2•)	C₃, [3]⁺ (3•)	C₄, [4]⁺ (4•)	80px C₅, [5]⁺ (5•)	80px C₆, [6]⁺ (6•)
Dihedral symmetry	nm (*n•)	D_n	n [n]	2n	D₁, [ ] (*•)	D₂, [2] (*2•)	D₃, [3] (*3•)	D₄, [4] (*4•)	80px D₅, [5] (*5•)	80px D₆, [6] (*6•)

Frieze groups

The 7 frieze groups, the two-dimensional line groups, with a direction of periodicity are given with five notational names. The Schönflies notation is given as infinite limits of 7 dihedral groups. The yellow regions represent the infinite fundamental domain in each.

[1,∞],
IUC (Orbifold)	Geo	Schönflies	Coxeter	Fundamental domain	Example
p1 (∞•)	p1	C_∞	[1,∞]⁺	75px	120px 120px
p1m1 (*∞•)	p1	C_∞v	[1,∞]

[2,∞⁺],
IUC (Orbifold)	Geo	Schönflies	Coxeter	Fundamental domain	Example
p11g (∞×)	p._g1	S_2∞	[2⁺,∞⁺]	75px	120px 120px
p11m (∞*)	p. 1	C_∞h	[2,∞⁺]

[2,∞],
IUC (Orbifold)	Geo	Schönflies	Coxeter
p2 (22∞)	p2	D_∞	[2,∞]⁺
p2mg (2*∞)	p2_g	D_∞d	[2⁺,∞]
p2mm (*22∞)	p2	D_∞h	[2,∞]

Wallpaper groups

The 17 wallpaper groups, with finite fundamental domains, are given by International notation, orbifold notation, and Coxeter notation, classified by the 5 Bravais lattices in the plane: square, oblique (parallelogrammatic), hexagonal (60 degree rhombic), rectangular, and centered rectangular (rhombic).

The p1 and p2 groups, with no reflectional symmetry, are repeated in all classes. The related pure reflectional Coxeter group are given with all classes except oblique.

Square
[4,4],
IUC (Orb.) Geo	Coxeter	Fundamental domain
p1 (°) p1		60px
p2 (2222) p2	[4,1⁺,4]⁺ [1⁺,4,4,1⁺]⁺	60px
pgg (22×) p_g2_g	[4⁺,4⁺]	60px
pmm (*2222) p2	[4,1⁺,4] [1⁺,4,4,1⁺]	60px
cmm (2*22) c2	[(4,4,2⁺)]
p4 (442) p4	[4,4]⁺
p4g (4*2) p_g4	[4⁺,4]
p4m (*442) p4	[4,4]

Rectangular
[∞_h,2,∞_v],
IUC (Orb.) Geo	Coxeter	Fundamental domain
p1 (°) p1	[∞⁺,2,∞⁺]
p2 (2222) p2	[∞,2,∞]⁺
pg(h) (××) p_g1	h: [∞⁺,(2,∞)⁺]
pg(v) (××) p_g1	v: [(∞,2)⁺,∞⁺]
pgm (22*) p_g2	h: [(∞,2)⁺,∞]
pmg (22*) p_g2	v: [∞,(2,∞)⁺]
pm(h) (**) p1	h: [∞⁺,2,∞]
pm(v) (**) p1	v: [∞,2,∞⁺]
pmm (*2222) p2	[∞,2,∞]

Rhombic
[∞_h,2⁺,∞_v],
IUC (Orb.) Geo	Coxeter	Fundamental domain
p1 (°) p1	[∞⁺,2⁺,∞⁺]
p2 (2222) p2	[∞,2⁺,∞]⁺
cm(h) (*×) c1	h: [∞⁺,2⁺,∞]
cm(v) (*×) c1	v: [∞,2⁺,∞⁺]
pgg (22×) p_g2_g	[((∞,2)⁺)^[2]]
cmm (2*22) c2	[∞,2⁺,∞]

Parallelogrammatic (oblique)
p1 (°) p1
p2 (2222) p2

Hexagonal/Triangular
[6,3], / [3^[3]],
p1 (°) p1		100px
p2 (2222) p2	[6,3]^Δ	100px
cmm (2*22) c2	[6,3]^⅄	100px
p3 (333) p3	[1⁺,6,3⁺] [3^[3]]⁺
p3m1 (*333) p3	[1⁺,6,3] [3^[3]]
p31m (3*3) h3	[6,3⁺]
p6 (632) p6	[6,3]⁺
p6m (*632) p6	[6,3]

Wallpaper subgroup relationships

Subgroup relationships among the 17 wallpaper group^[2]
		o	2222	××	**	*×	22×	22*	*2222	2*22	442	4*2	*442	333	*333	3*3	632	*632
		p1	p2	pg	pm	cm	pgg	pmg	pmm	cmm	p4	p4g	p4m	p3	p3m1	p31m	p6	p6m
o	p1	2
2222	p	2	2	2
××	pg	2		2
**	pm	2		2	2	2
*×	cm	2		2	2	3
22×	pgg	4	2	2			3
22*	pmg	4	2	2	2	4	2	3
*2222	pmm	4	2	4	2	4	4	2	2	2
2*22	cmm	4	2	4	4	2	2	2	2	4
442	p4	4	2								2
4*2	p4g	8	4	4	8	4	2	4	4	2	2	9
*442	p4m	8	4	8	4	4	4	4	2	2	2	2	2
333	p3	3												3
*333	p3m1	6		6	6	3								2	4	3
3*3	p31m	6		6	6	3								2	3	4
632	p6	6	3											2			4
*632	p6m	12	6	12	12	6	6	6	6	3				4	2	2	2	3

Notes

↑ The Crystallographic Space groups in Geometric algebra, D. Hestenes and J. Holt, Journal of Mathematical Physics. 48, 023514 (2007) (22 pages) PDF [1]
↑ Coxeter, (1980), The 17 plane groups, Table 4

References

The Symmetries of Things 2008, John H. Conway, Heidi Burgiel, Chaim Goodman-Strass, ISBN 978-1-56881-220-5 (Orbifold notation for polyhedra, Euclidean and hyperbolic tilings)
On Quaternions and Octonions, 2003, John Horton Conway and Derek A. Smith ISBN 978-1-56881-134-5
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 [2]
- (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]
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N.W. Johnson: Geometries and Transformations, (2015) Chapter 11: Finite symmetry groups

External links

"Conway's manuscript" on Orbifold notation (Notation changed from this original, x is now used in place of open-dot, and o is used in place of the closed dot)
The 17 Wallpaper Groups

[1] The Crystallographic Space groups in Geometric algebra, D. Hestenes and J. Holt, Journal of Mathematical Physics. 48, 023514 (2007) (22 pages) PDF [1]

[2] Coxeter, (1980), The 17 plane groups, Table 4

[1]

[2]

List of planar symmetry groups

Contents

Rosette groups

Frieze groups

Wallpaper groups

Wallpaper subgroup relationships

See also

Notes

References

External links

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