Special linear group:SL(2,3)

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Definition

The special linear group SL(2,3) is defined in the following equivalent ways:

\langle a,b,c \mid a^3 = b^3 = c^2 = abc \rangle.

It is a group of order 24.

Arithmetic functions

Function Value Similar groups Explanation
order (number of elements, equivalently, cardinality or size of underlying set) 24 groups with same order As SL(2,q), q = 3: q^3 - q = 3^3 - 3 = 24
As 2 \cdot A_n, n = 4: n! = 4! = 24
As binary von Dyck group with parameters (p,q,r) = (2,3,3): \frac{4}{1/p + 1/q + 1/r - 1} = \frac{4}{1/2 + 1/3 + 1/3 - 1} = \frac{4}{1/6} = 24
exponent of a group 12 groups with same order and exponent of a group | groups with same exponent of a group Elements of order 2,3,4,6.
derived length 3 groups with same order and derived length | groups with same derived length Derived series goes through quaternion group and then the center.
nilpotency class -- -- not a nilpotent group.
Frattini length 2 groups with same order and Frattini length | groups with same Frattini length
minimum size of generating set 2 groups with same order and minimum size of generating set | groups with same minimum size of generating set Element of order three and element of order four.
subgroup rank of a group 2 groups with same order and subgroup rank of a group | groups with same subgroup rank of a group --
max-length of a group 4 groups with same order and max-length of a group | groups with same max-length of a group Series for Sylow 2-subgroup followed by whole group, OR derived series refined at end.
composition length 4 groups with same order and composition length | groups with same composition length
chief length 3 groups with same order and chief length | groups with same chief length

Arithmetic functions of an element-counting nature

Function Value Similar groups Explanation for function value
number of conjugacy classes 7 groups with same order and number of conjugacy classes | groups with same number of conjugacy classes As SL(2,q), q = 3 (odd): q + 4 = 3 + 4 = 7
As binary von Dyck group with parameters (p,q,r) = (2,3,3): p + q + r - 1 = 2 + 3 + 3 - 1 = 7
As 2 \cdot A_n, n = 4: (number of unordered integer partitions of n) + 3(number of partitions of n into distinct odd parts) - (number of partitions of n with a positive even number of even parts and with at least one repeated part) = 5 + 3(1) - 1 = 7
See element structure of special linear group:SL(2,3)
number of equivalence classes under rational conjugacy 5 groups with same order and number of equivalence classes under rational conjugacy | groups with same number of equivalence classes under rational conjugacy See element structure of special linear group:SL(2,3)
number of conjugacy classes of rational elements 3 groups with same order and number of conjugacy classes of rational elements | groups with same number of conjugacy classes of rational elements See element structure of special linear group:SL(2,3)

Arithmetic functions of a subgroup-counting nature

Function Value Similar groups Explanation for function value
number of subgroups 15 groups with same order and number of subgroups | groups with same number of subgroups
number of conjugacy classes of subgroups 7 groups with same order and number of conjugacy classes of subgroups | groups with same number of conjugacy classes of subgroups

Group properties

Important properties

Property Satisfied? Explanation
Abelian group No
Nilpotent group No
Metacyclic group No
Supersolvable group No
Solvable group Yes Length three, commutator subgroup is the quaternion group, next commutator subgroup is center.

Other properties

Property Satisfied? Explanation
T-group No
Monolithic group Yes The center of order two is the unique minimal normal subgroup.
One-headed group Yes The commutator subgroup, which is a quaternion group
Group having subgroups of all orders dividing the group order No
Schur-trivial group Yes PLACEHOLDER FOR INFORMATION TO BE FILLED IN: [SHOW MORE]

Elements

Further information: element structure of special linear group:SL(2,3)

Summary

Item Value
order of the whole group (total number of elements) 24
conjugacy class sizes 1,1,4,4,4,4,6
grouped form: 1 (2 times), 4 (4 times), 6 (1 time)
maximum: 6, number of conjugacy classes: 7, lcm: 12
order statistics 1 of order 1, 1 of order 2, 8 of order 3, 6 of order 4, 8 of order 6
maximum: 6, lcm (exponent of the whole group): 12


Conjugacy classes

Note that since we are over field:F3, -1 = 2, so all the -1s below can be rewritten as 2s.

COMBINATORIAL BREAKDOWN TABLE: The table below breaks down a collection into various classes or types and provides information on the counts for each type. For some of the columns, totals provide a sanity check that all elements or classes have been accounted for. In this case, the table gives information on conjugacy class structure.
Conjugacy class representative Conjugacy class size List of all elements of conjugacy class Order of elements in conjugacy class
\begin{pmatrix} 1 & 0 \\ 0 & 1 \\\end{pmatrix} 1 \begin{pmatrix} 1 & 0 \\ 0 & 1 \\\end{pmatrix} 1
\begin{pmatrix} -1 & 0 \\ 0 & -1\\\end{pmatrix} 1 \begin{pmatrix} -1 & 0 \\ 0 & -1\\\end{pmatrix} 2
\begin{pmatrix} 1 & 1 \\ 0 & 1 \\\end{pmatrix} 4 [SHOW MORE] 3
\begin{pmatrix} 1 & -1 \\ 0 & 1 \\\end{pmatrix} 4 [SHOW MORE] 3
\begin{pmatrix} -1 & 1 \\ 0 & -1 \\\end{pmatrix} 4 [SHOW MORE] 6
\begin{pmatrix} -1 & -1 \\ 0 & -1 \\\end{pmatrix} 4 [SHOW MORE] 6
\begin{pmatrix}0 & -1\\ 1 & 0\\\end{pmatrix} 6 [SHOW MORE] 4
Total 24 (order of the group) -- --

Automorphism classes

COMBINATORIAL BREAKDOWN TABLE: The table below breaks down a collection into various classes or types and provides information on the counts for each type. For some of the columns, totals provide a sanity check that all elements or classes have been accounted for. In this case, the table gives information on automorphism class structure.

Below are the orbits under the action of the automorphism group, i.e., the automorphism classes of elements of the group.

List of representatives for each conjugacy class in the automorphism class Number of conjugacy classes in the automorphism class Size of each conjugacy class Automorphism class size Order of elements in conjugacy class
\begin{pmatrix} 1 & 0 \\ 0 & 1 \\\end{pmatrix} 1 1 1 1
\begin{pmatrix} -1 & 0 \\ 0 & -1 \\\end{pmatrix} 1 1 1 2
\begin{pmatrix} 1 & 1 \\ 0 & 1 \\\end{pmatrix}, \begin{pmatrix} 1 & -1 \\ 0 & 1 \\\end{pmatrix} 2 4 8 3
\begin{pmatrix} -1 & 1 \\ 0 & -1 \\\end{pmatrix}, \begin{pmatrix} -1 & -1 \\ 0 & -1 \\\end{pmatrix} 2 4 8 6
\begin{pmatrix} 0 & -1 \\ 1 & 0 \\\end{pmatrix} 1 6 6 4
Total 7 (number of conjugacy classes) -- 24 (order of the group) --


Endomorphisms

Automorphisms

The automorphism group of SL(2,3) is isomorphic to the symmetric group of degree four. The inner automorphism group, which is the quotient of SL(2,3) by its center, and is also the projective special linear group PSL(2,3), is isomorphic to the alternating group of degree four.

To see how the outer automorphisms act, we can view SL(2,3) as a subgroup of index two in GL(2,3), the general linear group of order two over the field of three elements. The inner automorphism group, which is PGL(2,3), is isomorphic to the symmetric group of degree four. Since SL(2,3) is a normal subgroup, and since its center equals the center of GL(2,3), the automorphisms of GL(2,3) all restrict to automorphisms of SL(2,3). SL(2,3) has no other automorphisms.

Subgroups

Further information: Subgroup structure of special linear group:SL(2,3)

Quick summary

Item Value
number of subgroups 15
number of conjugacy classes of subgroups 7
number of automorphism classes of subgroups 7
isomorphism classes of Sylow subgroups, corresponding fusion systems, and Sylow numbers 2-Sylow: quaternion group (order 8) as Q8 in SL(2,3) with its non-inner fusion system (see non-inner fusion system for quaternion group), Sylow number 1
3-Sylow: cyclic group:Z3 with its non-inner fusion system, Sylow number 4
Hall subgroups The order has only two prime divisors, so no possibility of Hall subgroups other than trivial subgroup, whole group, and Sylow subgroups
maximal subgroups There are maximal subgroups of orders 6 (Z6 in SL(2,3)) and 8 (2-Sylow subgroup of special linear group:SL(2,3))
normal subgroups There are two proper nontrivial normal subgroups: center of special linear group:SL(2,3) and 2-Sylow subgroup of special linear group:SL(2,3)

Table classifying subgroups up to automorphism

Note that, in the matrices, -1 can be written as 2 since elements are taken modulo 3.

Automorphism class of subgroups Representative subgroup Isomorphism class Order of subgroups Index of subgroups Number of conjugacy classes (=1 iff automorph-conjugate subgroup) Size of each conjugacy class (=1 iff normal subgroup) Total number of subgroups (=1 iff characteristic subgroup) Isomorphism class of quotient (if exists) Subnormal depth (if subnormal) Note
trivial subgroup \{ \begin{pmatrix} 1 & 0 \\ 0 & 1 \\\end{pmatrix} \} trivial group 1 24 1 1 1 special linear group:SL(2,3) 1 trivial
center of special linear group:SL(2,3) \{ \begin{pmatrix} 1 & 0 \\ 0 & 1 \\\end{pmatrix}, \begin{pmatrix} -1 & 0 \\ 0 & -1 \\\end{pmatrix} \} cyclic group:Z2 2 12 1 1 1 alternating group:A4 1
Z4 in SL(2,3) \langle \begin{pmatrix} 0 & 1 \\ -1 & 0 \\\end{pmatrix}\rangle cyclic group:Z4 4 6 1 3 3 -- 2
2-Sylow subgroup of special linear group:SL(2,3) \langle \begin{pmatrix} 0 & 1 \\ -1 & 0 \\\end{pmatrix}, \begin{pmatrix} -1 & -1 \\ -1 & 1 \\\end{pmatrix} \rangle quaternion group 8 3 1 1 1 cyclic group:Z3 1 2-Sylow
Z3 in SL(2,3) \langle \begin{pmatrix} 1 & 1 \\ 0 & 1 \\\end{pmatrix} \rangle cyclic group:Z3 3 8 1 4 4 -- -- 3-Sylow
Z6 in SL(2,3) \langle \begin{pmatrix} 1 & 1 \\ 0 & 1 \\\end{pmatrix}, \begin{pmatrix} -1 & 0 \\ 0 & -1 \\\end{pmatrix} \rangle cyclic group:Z6 6 4 1 4 4 -- -- 3-Sylow normalizer
whole group all elements special linear group:SL(2,3) 24 1 1 1 1 trivial group 0
Total (7 rows) -- -- -- -- 7 -- 15 -- -- --

Subgroup-defining functions

Subgroup-defining function What it means Value as subgroup Value as group Order Associated quotient-defining function Value as group Order (= index of subgroup)
center elements that commute with every group element center of special linear group:SL(2,3) cyclic group:Z2 2 inner automorphism group alternating group:A4 12
derived subgroup subgroup generated by all commutators 2-Sylow subgroup of special linear group:SL(2,3) quaternion group 8 abelianization cyclic group:Z3 3
second derived subgroup derived subgroup of derived subgroup center of special linear group:SL(2,3) cyclic group:Z2 2  ? alternating group:A4 12
perfect core the subgroup at which the derived series stabilizes trivial subgroup trivial group 1  ? special linear group:SL(2,3) 24
hypocenter the subgroup at which the lower central series stabilizes 2-Sylow subgroup of special linear group:SL(2,3) quaternion group 8  ? cyclic group:Z3 3
hypercenter the subgroup at which the upper central series stabilizes center of special linear group:SL(2,3) cyclic group:Z2 2  ? alternating group:A4 12
Frattini subgroup intersection of all maximal subgroups center of special linear group:SL(2,3) cyclic group:Z2 2 Frattini quotient alternating group:A4 12
Jacobson radical intersection of all maximal normal subgroups 2-Sylow subgroup of special linear group:SL(2,3) quaternion group 8  ? cyclic group:Z3 1
socle join of all minimal normal subgroups center of special linear group:SL(2,3) cyclic group:Z2 2 socle quotient alternating group:A4 12
Baer norm intersection of normalizers of all subgroups center of special linear group:SL(2,3) cyclic group:Z2 2  ? alternating group:A4 12
join of all abelian normal subgroups subgroup generated by all the abelian normal subgroups center of special linear group:SL(2,3) cyclic group:Z2 2  ? alternating group:A4 12
Fitting subgroup subgroup generated by all the nilpotent normal subgroups 2-Sylow subgroup of special linear group:SL(2,3) quaternion group 8  ? cyclic group:Z3 1
solvable radical subgroup generated by all the solvable normal subgroups whole group special linear group:SL(2,3) 24  ? trivial group 1


Supergroups

The special linear group SL(2,3) is a subgroup of the general linear group GL(2,3). It is also a subgroup of SL(2,q) for any prime power q \ge 3 (note that q need not be a power of 3). For full proof, refer: SL(2,3) is a subgroup of any special linear group, Dickson's theorem

GAP implementation

Group ID

This finite group has order 24 and has ID 3 among the groups of order 24 in GAP's SmallGroup library. For context, there are 15 groups of order 24. It can thus be defined using GAP's SmallGroup function as:

SmallGroup(24,3)

For instance, we can use the following assignment in GAP to create the group and name it G:

gap> G := SmallGroup(24,3);

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

IdGroup(G) = [24,3]

or just do:

IdGroup(G)

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


Other descriptions

Description Functions used
SL(2,3)
or
SpecialLinearGroup(2,3)
SL
SchurCover(AlternatingGroup(4)) SchurCover, AlternatingGroup

Description by presentation

F := FreeGroup(3);
G := F/[F.1^3*F.2^(-3), F.2^3*F.3^(-2), F.1^3*(F.1*F.2*F.3)^(-1)];