Unitriangular matrix group:UT(3,3): Difference between revisions

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Definition

This group is defined in the following equivalent ways:

1. It is the unique (up to isomorphism) non-abelian group of order ${\displaystyle 27}$ and exponent ${\displaystyle 3}$.
2. It is the unitriangular matrix group of degree three over the field of three elements.
3. It is the inner automorphism group of wreath product of groups of order p for ${\displaystyle p=3}$.
4. It is the Burnside group ${\displaystyle B(2,3)}$: the quotient of the free group of rank two by the subgroup generated by all cubes in the group.

Families

• Unitriangular matrix group:UT(3,p): For an odd prime ${\displaystyle p}$, this is the unique non-abelian group of order ${\displaystyle p^{3}}$ and exponent ${\displaystyle p}$. It is the group of unipotent upper-triangular ${\displaystyle 3\times 3}$ matrices over the field of three elements.
• Burnside groups: This group is ${\displaystyle B(2,3)}$. In general, the Burnside groups ${\displaystyle B(m,3)}$ are all finite.

Arithmetic functions

Function	Value	Similar groups	Explanation for function value
underlying prime of p-group	3
order (number of elements, equivalently, cardinality or size of underlying set)	27	groups with same order	As ${\displaystyle UT(n,q),n=3,q=3}$: ${\displaystyle q^{n(n-1)/2}=3^{3(3-1)/2}=3^{3}=27}$ As ${\displaystyle B(n,3),n=2}$: ${\displaystyle 3^{n+{\binom {n}{2}}+{\binom {n}{3}}}=3^{2+{\binom {2}{2}}+{\binom {2}{3}}}=3^{2+1+0}=3^{3}=27}$
prime-base logarithm of order	3
exponent of a group	3	groups with same order and exponent of a group | groups with same exponent of a group
prime-base logarithm of exponent	1	groups with same order and prime-base logarithm of exponent | groups with same prime-base logarithm of order and prime-base logarithm of exponent | groups with same prime-base logarithm of exponent
Frattini length	2	groups with same order and Frattini length | groups with same prime-base logarithm of order and Frattini length | groups with same Frattini length
derived length	2	groups with same order and derived length | groups with same prime-base logarithm of order and derived length | groups with same derived length
nilpotency class	2	groups with same order and nilpotency class | groups with same prime-base logarithm of order and nilpotency class | groups with same nilpotency class
minimum size of generating set	2	groups with same order and minimum size of generating set | groups with same prime-base logarithm of order and minimum size of generating set | groups with same minimum size of generating set
subgroup rank of a group	2	groups with same order and subgroup rank of a group | groups with same prime-base logarithm of order and subgroup rank of a group | groups with same subgroup rank of a group
rank of a p-group	2	groups with same order and rank of a p-group | groups with same prime-base logarithm of order and rank of a p-group | groups with same rank of a p-group
normal rank of a p-group	2	groups with same order and normal rank of a p-group | groups with same prime-base logarithm of order and normal rank of a p-group | groups with same normal rank of a p-group
characteristic rank of a p-group	1	groups with same order and characteristic rank of a p-group | groups with same prime-base logarithm of order and characteristic rank of a p-group | groups with same characteristic rank of a p-group

Group properties

Other associated constructs

Linear representation theory

Further information: linear representation theory of unitriangular matrix group:UT(3,3)

Summary

Item	Value
degrees of irreducible representations over a splitting field	1,1,1,1,1,1,1,1,1,3,3 (1 occurs 9 times, 3 occurs 2 times) maximum: 3, lcm: 3, number: 11, sum of squares: 27
Schur index values of irreducible representations	1,1,1,1,1,1,1,1,1,1,1
smallest field of realization (characteristic zero)	${\displaystyle \mathbb {Q} (e^{2\pi i/3})}$ or ${\displaystyle \mathbb {Q} [x]/(x^{2}+x+1)}$
condition for a field to be a splitting field	characteristic not 3, contains a primitive cube root of unity, i.e., the polynomial ${\displaystyle x^{2}+x+1}$ splits. For a finite field of size ${\displaystyle q}$, equivalent to 3 dividing ${\displaystyle q-1}$
smallest size splitting field	field:F4, i.e., the field with 4 elements
orbit structure of irreducible representations under automorphism group	?

GAP implementation

Group ID

This finite group has order 27 and has ID 3 among the groups of order 27 in GAP's SmallGroup library. For context, there are groups of order 27. It can thus be defined using GAP's SmallGroup function as:

SmallGroup(27,3)

For instance, we can use the following assignment in GAP to create the group and name it ${\displaystyle G}$:

gap> G := SmallGroup(27,3);

Conversely, to check whether a given group ${\displaystyle G}$ is in fact the group we want, we can use GAP's IdGroup function:

IdGroup(G) = [27,3]

or just do:

IdGroup(G)

to have GAP output the group ID, that we can then compare to what we want.

Related pages

UT(3,${\displaystyle \_}$) , UT(4,${\displaystyle \_}$) , UT(3, p) , UT(4, 2 ) , UT(4, 3 ) , UT(4, p ) .