Copied to
clipboard

G = C2×ASL2(𝔽3)  order 432 = 24·33

Direct product of C2 and ASL2(𝔽3)

direct product, non-abelian, soluble

Aliases: C2×ASL2(𝔽3), PSU3(𝔽2)⋊C6, C3⋊S3⋊SL2(𝔽3), (C3×C6)⋊SL2(𝔽3), (C2×PSU3(𝔽2))⋊C3, C32⋊(C2×SL2(𝔽3)), C3⋊S3.(C2×A4), (C2×C3⋊S3).A4, SmallGroup(432,735)

Series: Derived Chief Lower central Upper central

Derived series
C1C32C3⋊S3PSU3(𝔽2) — C2×ASL2(𝔽3)
Chief series
C1C32C3⋊S3PSU3(𝔽2)ASL2(𝔽3) — C2×ASL2(𝔽3)
Lower central
PSU3(𝔽2) — C2×ASL2(𝔽3)
Upper central
C1C2

Generators and relations for C2×ASL2(𝔽3)
 G = < a,b,c,d,e,f | a2=b3=c3=d4=f3=1, e2=d2, ab=ba, ac=ca, ad=da, ae=ea, af=fa, fbf-1=ece-1=bc=cb, dbd-1=c-1, ebe-1=b-1c, dcd-1=b, cf=fc, ede-1=d-1, fdf-1=e, fef-1=de >

C1
C2
9C2
9C2
4C3
12C3
24C3
9C22
27C4
27C4
4C6
12S3
12C6
12S3
24C6
36C6
36C6
C32
4C32
8C32
9Q8
27Q8
27C2×C4
12D6
36C2×C6
C3⋊S3
C3×C6
C3⋊S3
4C3×C6
8C3×C6
12C3×S3
12C3×S3
4He3
9C2×Q8
9SL2(𝔽3)
C2×C3⋊S3
3C32⋊C4
3C32⋊C4
12S3×C6
4C2×He3
4C32⋊C6
4C32⋊C6
9C2×SL2(𝔽3)
PSU3(𝔽2)
3C2×C32⋊C4
3PSU3(𝔽2)
4C2×C32⋊C6
C2×PSU3(𝔽2)
ASL2(𝔽3)
C2×ASL2(𝔽3)

Character table of C2×ASL2(𝔽3)

 class 12A2B2C3A3B3C3D3E4A4B6A6B6C6D6E6F6G6H6I
 size 1199812122424545481212242436363636
ρ111111111111111111111    trivial
ρ21-1-11111111-1-1-1-1-1-111-1-1    linear of order 2
ρ311111ζ3ζ32ζ3ζ32111ζ32ζ3ζ32ζ3ζ32ζ3ζ32ζ3    linear of order 3
ρ41-1-111ζ3ζ32ζ3ζ321-1-1ζ6ζ65ζ6ζ65ζ32ζ3ζ6ζ65    linear of order 6
ρ511111ζ32ζ3ζ32ζ3111ζ3ζ32ζ3ζ32ζ3ζ32ζ3ζ32    linear of order 3
ρ61-1-111ζ32ζ3ζ32ζ31-1-1ζ65ζ6ζ65ζ6ζ3ζ32ζ65ζ6    linear of order 6
ρ72-22-22-1-1-1-100-2111111-1-1    symplectic lifted from SL2(𝔽3), Schur index 2
ρ822-2-22-1-1-1-1002-1-1-1-11111    symplectic lifted from SL2(𝔽3), Schur index 2
ρ92-22-22ζ6ζ65ζ6ζ6500-2ζ3ζ32ζ3ζ32ζ3ζ32ζ65ζ6    complex lifted from SL2(𝔽3)
ρ1022-2-22ζ65ζ6ζ65ζ6002ζ6ζ65ζ6ζ65ζ32ζ3ζ32ζ3    complex lifted from SL2(𝔽3)
ρ1122-2-22ζ6ζ65ζ6ζ65002ζ65ζ6ζ65ζ6ζ3ζ32ζ3ζ32    complex lifted from SL2(𝔽3)
ρ122-22-22ζ65ζ6ζ65ζ600-2ζ32ζ3ζ32ζ3ζ32ζ3ζ6ζ65    complex lifted from SL2(𝔽3)
ρ133-3-3330000-11-300000000    orthogonal lifted from C2×A4
ρ14333330000-1-1300000000    orthogonal lifted from A4
ρ158800-122-1-100-122-1-10000    orthogonal lifted from ASL2(𝔽3)
ρ168-800-122-1-1001-2-2110000    orthogonal faithful
ρ178-800-1-1--3-1+-3ζ6ζ650011--31+-3ζ3ζ320000    complex faithful
ρ188800-1-1+-3-1--3ζ65ζ600-1-1--3-1+-3ζ6ζ650000    complex lifted from ASL2(𝔽3)
ρ198-800-1-1+-3-1--3ζ65ζ60011+-31--3ζ32ζ30000    complex faithful
ρ208800-1-1--3-1+-3ζ6ζ6500-1-1+-3-1--3ζ65ζ60000    complex lifted from ASL2(𝔽3)

Permutation representations of C2×ASL2(𝔽3)
On 18 points - transitive group 18T151
Generators in S18
(1 2)(3 11)(4 12)(5 13)(6 14)(7 15)(8 16)(9 17)(10 18)

(1 17 15)(2 9 7)(3 6 16)(4 5 18)(8 11 14)(10 12 13)

(1 18 16)(2 10 8)(3 17 4)(5 6 15)(7 13 14)(9 12 11)

(3 4 5 6)(7 8 9 10)(11 12 13 14)(15 16 17 18)

(3 15 5 17)(4 18 6 16)(7 13 9 11)(8 12 10 14)

(3 4 17)(5 6 15)(7 13 14)(9 11 12)

G:=sub<Sym(18)| (1,2)(3,11)(4,12)(5,13)(6,14)(7,15)(8,16)(9,17)(10,18), (1,17,15)(2,9,7)(3,6,16)(4,5,18)(8,11,14)(10,12,13), (1,18,16)(2,10,8)(3,17,4)(5,6,15)(7,13,14)(9,12,11), (3,4,5,6)(7,8,9,10)(11,12,13,14)(15,16,17,18), (3,15,5,17)(4,18,6,16)(7,13,9,11)(8,12,10,14), (3,4,17)(5,6,15)(7,13,14)(9,11,12)>;

G:=Group( (1,2)(3,11)(4,12)(5,13)(6,14)(7,15)(8,16)(9,17)(10,18), (1,17,15)(2,9,7)(3,6,16)(4,5,18)(8,11,14)(10,12,13), (1,18,16)(2,10,8)(3,17,4)(5,6,15)(7,13,14)(9,12,11), (3,4,5,6)(7,8,9,10)(11,12,13,14)(15,16,17,18), (3,15,5,17)(4,18,6,16)(7,13,9,11)(8,12,10,14), (3,4,17)(5,6,15)(7,13,14)(9,11,12) );

G=PermutationGroup([[(1,2),(3,11),(4,12),(5,13),(6,14),(7,15),(8,16),(9,17),(10,18)], [(1,17,15),(2,9,7),(3,6,16),(4,5,18),(8,11,14),(10,12,13)], [(1,18,16),(2,10,8),(3,17,4),(5,6,15),(7,13,14),(9,12,11)], [(3,4,5,6),(7,8,9,10),(11,12,13,14),(15,16,17,18)], [(3,15,5,17),(4,18,6,16),(7,13,9,11),(8,12,10,14)], [(3,4,17),(5,6,15),(7,13,14),(9,11,12)]])

G:=TransitiveGroup(18,151);

On 24 points - transitive group 24T1320
Generators in S24
(1 4)(2 3)(5 7)(6 8)(9 23)(10 24)(11 21)(12 22)(13 18)(14 19)(15 20)(16 17)

(1 9 11)(2 10 12)(3 24 22)(4 23 21)(6 13 15)(8 18 20)

(1 11 9)(2 10 12)(3 24 22)(4 21 23)(5 14 16)(7 19 17)

(1 2)(3 4)(5 6)(7 8)(9 10 11 12)(13 14 15 16)(17 18 19 20)(21 22 23 24)

(1 8)(2 7)(3 5)(4 6)(9 18 11 20)(10 17 12 19)(13 21 15 23)(14 24 16 22)

(1 7 2)(3 4 5)(9 17 12)(10 11 19)(14 24 21)(16 22 23)

G:=sub<Sym(24)| (1,4)(2,3)(5,7)(6,8)(9,23)(10,24)(11,21)(12,22)(13,18)(14,19)(15,20)(16,17), (1,9,11)(2,10,12)(3,24,22)(4,23,21)(6,13,15)(8,18,20), (1,11,9)(2,10,12)(3,24,22)(4,21,23)(5,14,16)(7,19,17), (1,2)(3,4)(5,6)(7,8)(9,10,11,12)(13,14,15,16)(17,18,19,20)(21,22,23,24), (1,8)(2,7)(3,5)(4,6)(9,18,11,20)(10,17,12,19)(13,21,15,23)(14,24,16,22), (1,7,2)(3,4,5)(9,17,12)(10,11,19)(14,24,21)(16,22,23)>;

G:=Group( (1,4)(2,3)(5,7)(6,8)(9,23)(10,24)(11,21)(12,22)(13,18)(14,19)(15,20)(16,17), (1,9,11)(2,10,12)(3,24,22)(4,23,21)(6,13,15)(8,18,20), (1,11,9)(2,10,12)(3,24,22)(4,21,23)(5,14,16)(7,19,17), (1,2)(3,4)(5,6)(7,8)(9,10,11,12)(13,14,15,16)(17,18,19,20)(21,22,23,24), (1,8)(2,7)(3,5)(4,6)(9,18,11,20)(10,17,12,19)(13,21,15,23)(14,24,16,22), (1,7,2)(3,4,5)(9,17,12)(10,11,19)(14,24,21)(16,22,23) );

G=PermutationGroup([[(1,4),(2,3),(5,7),(6,8),(9,23),(10,24),(11,21),(12,22),(13,18),(14,19),(15,20),(16,17)], [(1,9,11),(2,10,12),(3,24,22),(4,23,21),(6,13,15),(8,18,20)], [(1,11,9),(2,10,12),(3,24,22),(4,21,23),(5,14,16),(7,19,17)], [(1,2),(3,4),(5,6),(7,8),(9,10,11,12),(13,14,15,16),(17,18,19,20),(21,22,23,24)], [(1,8),(2,7),(3,5),(4,6),(9,18,11,20),(10,17,12,19),(13,21,15,23),(14,24,16,22)], [(1,7,2),(3,4,5),(9,17,12),(10,11,19),(14,24,21),(16,22,23)]])

G:=TransitiveGroup(24,1320);

On 24 points - transitive group 24T1321
Generators in S24
(1 3)(2 4)(5 12)(6 9)(7 10)(8 11)(13 20)(14 17)(15 18)(16 19)(21 23)(22 24)

(1 19 14)(3 16 17)(5 10 21)(6 22 11)(7 23 12)(8 9 24)

(2 20 15)(4 13 18)(5 10 21)(6 11 22)(7 23 12)(8 24 9)

(1 2 3 4)(5 6 7 8)(9 10 11 12)(13 14 15 16)(17 18 19 20)(21 22 23 24)

(1 22 3 24)(2 21 4 23)(5 18 7 20)(6 17 8 19)(9 14 11 16)(10 13 12 15)

(2 21 22)(4 23 24)(5 6 20)(7 8 18)(9 13 12)(10 11 15)

G:=sub<Sym(24)| (1,3)(2,4)(5,12)(6,9)(7,10)(8,11)(13,20)(14,17)(15,18)(16,19)(21,23)(22,24), (1,19,14)(3,16,17)(5,10,21)(6,22,11)(7,23,12)(8,9,24), (2,20,15)(4,13,18)(5,10,21)(6,11,22)(7,23,12)(8,24,9), (1,2,3,4)(5,6,7,8)(9,10,11,12)(13,14,15,16)(17,18,19,20)(21,22,23,24), (1,22,3,24)(2,21,4,23)(5,18,7,20)(6,17,8,19)(9,14,11,16)(10,13,12,15), (2,21,22)(4,23,24)(5,6,20)(7,8,18)(9,13,12)(10,11,15)>;

G:=Group( (1,3)(2,4)(5,12)(6,9)(7,10)(8,11)(13,20)(14,17)(15,18)(16,19)(21,23)(22,24), (1,19,14)(3,16,17)(5,10,21)(6,22,11)(7,23,12)(8,9,24), (2,20,15)(4,13,18)(5,10,21)(6,11,22)(7,23,12)(8,24,9), (1,2,3,4)(5,6,7,8)(9,10,11,12)(13,14,15,16)(17,18,19,20)(21,22,23,24), (1,22,3,24)(2,21,4,23)(5,18,7,20)(6,17,8,19)(9,14,11,16)(10,13,12,15), (2,21,22)(4,23,24)(5,6,20)(7,8,18)(9,13,12)(10,11,15) );

G=PermutationGroup([[(1,3),(2,4),(5,12),(6,9),(7,10),(8,11),(13,20),(14,17),(15,18),(16,19),(21,23),(22,24)], [(1,19,14),(3,16,17),(5,10,21),(6,22,11),(7,23,12),(8,9,24)], [(2,20,15),(4,13,18),(5,10,21),(6,11,22),(7,23,12),(8,24,9)], [(1,2,3,4),(5,6,7,8),(9,10,11,12),(13,14,15,16),(17,18,19,20),(21,22,23,24)], [(1,22,3,24),(2,21,4,23),(5,18,7,20),(6,17,8,19),(9,14,11,16),(10,13,12,15)], [(2,21,22),(4,23,24),(5,6,20),(7,8,18),(9,13,12),(10,11,15)]])

G:=TransitiveGroup(24,1321);

Matrix representation of C2×ASL2(𝔽3) in GL8(ℤ)

-10000000
0-1000000
00-100000
000-10000
0000-1000
00000-100
000000-10
0000000-1
,
00000001
-1-1-1-1-1-1-1-1
00000010
01000000
00100000
10000000
00001000
00000100
,
00001000
00000100
00010000
00000001
-1-1-1-1-1-1-1-1
00000010
01000000
00100000
,
10000000
00000010
00010000
01000000
00000001
00001000
00100000
-1-1-1-1-1-1-1-1
,
10000000
00001000
-1-1-1-1-1-1-1-1
00000001
00100000
00010000
00000100
00000010
,
10000000
00000010
00010000
00000001
00001000
01000000
00000100
00100000

G:=sub<GL(8,Integers())| [-1,0,0,0,0,0,0,0,0,-1,0,0,0,0,0,0,0,0,-1,0,0,0,0,0,0,0,0,-1,0,0,0,0,0,0,0,0,-1,0,0,0,0,0,0,0,0,-1,0,0,0,0,0,0,0,0,-1,0,0,0,0,0,0,0,0,-1],[0,-1,0,0,0,1,0,0,0,-1,0,1,0,0,0,0,0,-1,0,0,1,0,0,0,0,-1,0,0,0,0,0,0,0,-1,0,0,0,0,1,0,0,-1,0,0,0,0,0,1,0,-1,1,0,0,0,0,0,1,-1,0,0,0,0,0,0],[0,0,0,0,-1,0,0,0,0,0,0,0,-1,0,1,0,0,0,0,0,-1,0,0,1,0,0,1,0,-1,0,0,0,1,0,0,0,-1,0,0,0,0,1,0,0,-1,0,0,0,0,0,0,0,-1,1,0,0,0,0,0,1,-1,0,0,0],[1,0,0,0,0,0,0,-1,0,0,0,1,0,0,0,-1,0,0,0,0,0,0,1,-1,0,0,1,0,0,0,0,-1,0,0,0,0,0,1,0,-1,0,0,0,0,0,0,0,-1,0,1,0,0,0,0,0,-1,0,0,0,0,1,0,0,-1],[1,0,-1,0,0,0,0,0,0,0,-1,0,0,0,0,0,0,0,-1,0,1,0,0,0,0,0,-1,0,0,1,0,0,0,1,-1,0,0,0,0,0,0,0,-1,0,0,0,1,0,0,0,-1,0,0,0,0,1,0,0,-1,1,0,0,0,0],[1,0,0,0,0,0,0,0,0,0,0,0,0,1,0,0,0,0,0,0,0,0,0,1,0,0,1,0,0,0,0,0,0,0,0,0,1,0,0,0,0,0,0,0,0,0,1,0,0,1,0,0,0,0,0,0,0,0,0,1,0,0,0,0] >;

C2×ASL2(𝔽3) in GAP, Magma, Sage, TeX 

C_2\times {\rm ASL}_2({\mathbb F}_3)
% in TeX

G:=Group("C2xASL(2,3)");
// GroupNames label

G:=SmallGroup(432,735);
// by ID

G=gap.SmallGroup(432,735);
# by ID

G:=PCGroup([7,-2,-3,-2,2,-2,-3,3,387,100,262,185,80,6060,1699,1034,201,8245,1588,223,622]);
// Polycyclic

G:=Group<a,b,c,d,e,f|a^2=b^3=c^3=d^4=f^3=1,e^2=d^2,a*b=b*a,a*c=c*a,a*d=d*a,a*e=e*a,a*f=f*a,f*b*f^-1=e*c*e^-1=b*c=c*b,d*b*d^-1=c^-1,e*b*e^-1=b^-1*c,d*c*d^-1=b,c*f=f*c,e*d*e^-1=d^-1,f*d*f^-1=e,f*e*f^-1=d*e>;
// generators/relations

Export

Subgroup lattice of C2×ASL2(𝔽3) in TeX
Character table of C2×ASL2(𝔽3) in TeX

׿
×
𝔽