mathematics Mathematics is an area of knowledge that includes the topics of numbers, formulas and related structures, shapes and the spaces in which they are contained, and quantities and their changes. These topics are represented in modern mathematics ...

, an exceptional isomorphism, also called an accidental isomorphism, is an

isomorphism In mathematics, an isomorphism is a structure-preserving mapping between two structures of the same type that can be reversed by an inverse mapping. Two mathematical structures are isomorphic if an isomorphism exists between them. The word i ...

between members ''a''_''i'' and ''b''_''j'' of two families, usually infinite, of mathematical objects, that is not an example of a pattern of such isomorphisms.Because these series of objects are presented differently, they are not identical objects (do not have identical descriptions), but turn out to describe the same object, hence one refers to this as an isomorphism, not an equality (identity). These coincidences are at times considered a matter of trivia, but in other respects they can give rise to other phenomena, notably

exceptional object Many branches of mathematics study objects of a given type and prove a classification theorem. A common theme is that the classification results in a number of series of objects and a finite number of exceptions — often with desirable properties ...

s. In the following, coincidences are listed wherever they occur.

Groups

Finite simple groups

The exceptional isomorphisms between the series of

finite simple group Finite is the opposite of infinite. It may refer to: * Finite number (disambiguation) * Finite set, a set whose cardinality (number of elements) is some natural number * Finite verb, a verb form that has a subject, usually being inflected or marked ...

s mostly involve

projective special linear group In mathematics, especially in the group theoretic area of algebra, the projective linear group (also known as the projective general linear group or PGL) is the induced action of the general linear group of a vector space ''V'' on the associat ...

s and

alternating group In mathematics, an alternating group is the group of even permutations of a finite set. The alternating group on a set of elements is called the alternating group of degree , or the alternating group on letters and denoted by or Basic prop ...

s, and are: *

\operatorname_2(4) \cong \operatorname_2(5) \cong A_5,

the smallest non-abelian simple group (order 60) –

icosahedral symmetry In mathematics, and especially in geometry, an object has icosahedral symmetry if it has the same symmetries as a regular icosahedron. Examples of other polyhedra with icosahedral symmetry include the regular dodecahedron (the dual polyhedr ...

; *

\operatorname_2(7) \cong \operatorname_3(2),

the second-smallest non-abelian simple group (order 168) –

PSL(2,7) In mathematics, the projective special linear group , isomorphic to , is a finite simple group that has important applications in algebra, geometry, and number theory. It is the automorphism group of the Klein quartic as well as the symmetry gro ...

; *

\operatorname_2(9) \cong A_6,

\operatorname_4(2) \cong A_8,

\operatorname_4(2) \cong \operatorname_4(3),

between a

projective special orthogonal group In projective geometry and linear algebra, the projective orthogonal group PO is the induced action of the orthogonal group of a quadratic space ''V'' = (''V'',''Q'')A quadratic space is a vector space ''V'' together with a quadratic form ''Q''; th ...

and a projective symplectic group.

Alternating groups and symmetric groups

There are coincidences between symmetric/alternating groups and small groups of Lie type/

polyhedral groups In geometry, the polyhedral group is any of the symmetry groups of the Platonic solids. Groups There are three polyhedral groups: *The Tetrahedral symmetry, tetrahedral group of order 12, rotational symmetry group of the tetrahedron, regular tet ...

:Wilson, Robert A. (2009), Chapter 3 *

S_3 \cong \operatorname_2(2) \cong

Dihedral group of order 6 In mathematics, D3 (sometimes alternatively denoted by D6) is the dihedral group of degree 3, or, in other words, the dihedral group of order 6. It is isomorphic to the symmetric group S3 of degree 3. It is also the smallest possible non-abel ...

, *

A_4 \cong \operatorname_2(3) \cong

tetrahedral group 150px, A regular tetrahedron, an example of a solid with full tetrahedral symmetry A regular tetrahedron has 12 rotational (or orientation-preserving) symmetries, and a symmetry order of 24 including transformations that combine a reflection ...

, *

S_4 \cong \operatorname_2(3) \cong \operatorname_2(\mathbb/4) \cong

full tetrahedral group

\cong

octahedral group A regular octahedron has 24 rotational (or orientation-preserving) symmetries, and 48 symmetries altogether. These include transformations that combine a reflection and a rotation. A cube has the same set of symmetries, since it is the polyhedr ...

, *

A_5 \cong \operatorname_2(4) \cong \operatorname_2(5) \cong

icosahedral group In mathematics, and especially in geometry, an object has icosahedral symmetry if it has the same symmetries as a regular icosahedron. Examples of other polyhedra with icosahedral symmetry include the regular dodecahedron (the dual of the ...

, *

S_5 \cong \operatorname_2(4) \cong \operatorname_2(5)

, *

A_6 \cong \operatorname_2(9) \cong \operatorname_4(2)',

S_6 \cong \operatorname_4(2),

A_8 \cong \operatorname_4(2) \cong \operatorname_6^+(2)',

S_8 \cong \operatorname_6^+(2).

These can all be explained in a systematic way by using linear algebra (and the action of

S_n

on affine

n

-space) to define the isomorphism going from the right side to the left side. (The above isomorphisms for

A_8

and

S_8

are linked via the exceptional isomorphism

\operatorname_4/\mu_2 \cong \operatorname_6

.) There are also some coincidences with symmetries of

regular polyhedra A regular polyhedron is a polyhedron whose symmetry group acts transitively on its flags. A regular polyhedron is highly symmetrical, being all of edge-transitive, vertex-transitive and face-transitive. In classical contexts, many different equival ...

: the alternating group A₅ agrees with the

(itself an exceptional object), and the double cover of the alternating group A₅ is the

binary icosahedral group In mathematics, the binary icosahedral group 2''I'' or Coxeter&Moser: Generators and Relations for discrete groups: : Rl = Sm = Tn = RST is a certain nonabelian group of order 120. It is an extension of the icosahedral group ''I'' or (2,3,5) of o ...

Trivial group

The

trivial group In mathematics, a trivial group or zero group is a group consisting of a single element. All such groups are isomorphic, so one often speaks of the trivial group. The single element of the trivial group is the identity element and so it is usuall ...

arises in numerous ways. The trivial group is often omitted from the beginning of a classical family. For instance: *

C_1

, the cyclic group of order 1; *

A_0 \cong A_1 \cong A_2

, the alternating group on 0, 1, or 2 letters; *

S_0 \cong S_1

, the symmetric group on 0 or 1 letters; *

\operatorname(0,\mathbb K) \cong \operatorname(0,\mathbb K) \cong \operatorname(0,\mathbb K) \cong \operatorname(0,\mathbb K)

, linear groups of a 0-dimensional vector space; *

\operatorname(1,\mathbb K) \cong \operatorname(1,\mathbb K) \cong \operatorname(1,\mathbb K)

, linear groups of a 1-dimensional vector space * and many others.

Spheres

The spheres ''S''⁰, ''S''¹, and ''S''³ admit group structures, which can be described in many ways: *

S^0 \cong \operatorname(1) \cong \operatorname(1) \cong \mathbb/2\mathbb \cong \mathbb^\times

, the last being the group of units of the integers , *

S^1 \cong \operatorname(2) \cong \operatorname(2) \cong \operatorname(1) \cong \mathbb/\mathbb \cong

circle group *

S^3 \cong \operatorname(3) \cong \operatorname(2) \cong \operatorname(1) \cong

unit quaternions.

Spin groups

In addition to

\operatorname(1)

\operatorname(2)

and

\operatorname(3)

above, there are isomorphisms for higher dimensional spin groups: *

\operatorname(4) \cong \operatorname(1) \times \operatorname(1) \cong \operatorname(2) \times \operatorname(2)

\operatorname(5) \cong \operatorname(2)

\operatorname(6) \cong \operatorname(4)

Also,

Spin(8) In mathematics, SO(8) is the special orthogonal group acting on eight-dimensional Euclidean space. It could be either a real or complex simple Lie group of rank 4 and dimension 28. Spin(8) Like all special orthogonal groups of n > 2, SO(8) is n ...

has an exceptional order 3

triality In mathematics, triality is a relationship among three vector spaces, analogous to the duality relation between dual vector spaces. Most commonly, it describes those special features of the Dynkin diagram D4 and the associated Lie group Spin( ...

automorphism

Coxeter–Dynkin diagrams

There are some exceptional isomorphisms of

Dynkin diagrams In the mathematical field of Lie theory, a Dynkin diagram, named for Eugene Dynkin, is a type of graph with some edges doubled or tripled (drawn as a double or triple line). Dynkin diagrams arise in the classification of semisimple Lie algebras ...

, yielding isomorphisms of the corresponding Coxeter groups and of polytopes realizing the symmetries, as well as isomorphisms of lie algebras whose root systems are described by the same diagrams. These are:

Notes

References

{{refend Mathematical relations