Small group number 10 of order 625

G is the group 625gp10

G has 2 minimal generators, rank 2 and exponent 25. The centre has rank 1.

The 6 maximal subgroups are: Ab(25,5), E125, M125 (4x).

There are 2 conjugacy classes of maximal elementary abelian subgroups. Their ranks are: 2, 2.

This cohomology ring calculation is complete.

Ring structure | Completion information | Koszul information | Restriction information | Poincaré series

Ring structure

The cohomology ring has 23 generators:

y₁ in degree 1, a nilpotent element
y₂ in degree 1, a nilpotent element
x₁ in degree 2, a nilpotent element
x₂ in degree 2, a nilpotent element
x₃ in degree 2
w in degree 3, a nilpotent element
v₁ in degree 4, a nilpotent element
v₂ in degree 4, a nilpotent element
u in degree 5, a nilpotent element
t₁ in degree 6, a nilpotent element
t₂ in degree 6, a nilpotent element
s in degree 7, a nilpotent element
r₁ in degree 8, a nilpotent element
r₂ in degree 8
q₁ in degree 9, a nilpotent element
q₂ in degree 9, a nilpotent element
p₁ in degree 10
p₂ in degree 10, a regular element
o in degree 11, a nilpotent element
n in degree 12
m in degree 13, a nilpotent element
l in degree 14
k in degree 15, a nilpotent element

There are 230 minimal relations:

y₂² = 0
y₁.y₂ = 0
y₁² = 0
y₂.x₃ = 0
y₂.x₂ = y₁.x₂
y₂.x₁ = y₁.x₂
y₁.x₁ = 0
x₂.x₃ = 0
x₁.x₃ = 0
x₂² = 0
x₁.x₂ = 0
x₁² = 0
y₂.w = 0
y₁.w = 0
x₃.w = 0
x₂.w = 0
x₁.w = 0
y₂.v₁ = 0
y₁.v₂ = 0
y₁.v₁ = 0
x₃.v₂ = 0
x₃.v₁ = 0
w² = 0
x₂.v₂ = 0
x₂.v₁ = 0
x₁.v₂ = 0
x₁.v₁ = 0
y₂.u = 0
y₁.u = 0
x₃.u = 0
w.v₂ = 0
w.v₁ = 0
x₂.u = 0
x₁.u = 0
y₂.t₁ = 0
y₁.t₂ = 0
y₁.t₁ = 0
x₃.t₂ = 0
x₃.t₁ = 0
v₂² = 0
v₁.v₂ = 0
v₁² = 0
w.u = 0
x₂.t₂ = 0
x₂.t₁ = 0
x₁.t₂ = 0
x₁.t₁ = 0
y₂.s = 0
y₁.s = 0
x₃.s = 0
y₁.r₂ = 0
v₂.u = 0
v₁.u = 0
w.t₂ = 0
w.t₁ = 0
x₂.s = 0
x₁.s = 0
y₂.r₁ = 0
y₁.r₁ = 0
x₃.r₂ = 2y₁.q₂
x₃.r₁ = - y₁.q₂
x₂.r₂ = y₂.q₁
x₁.r₂ = 0
u² = 0
v₂.t₂ = 0
v₂.t₁ = 0
v₁.t₂ = 0
v₁.t₁ = 0
w.s = 0
x₂.r₁ = 0
x₁.r₁ = 0
y₂.q₂ = 0
y₁.q₁ = 0
w.r₂ = y₂.p₁
x₃.q₁ = 0
y₁.p₁ = 0
u.t₂ = 0
u.t₁ = 0
v₂.s = 0
v₁.s = 0
w.r₁ = 0
x₂.q₂ = 0
x₂.q₁ = 0
x₁.q₂ = 0
x₁.q₁ = 0
x₃.p₁ = - 2y₁.x₃.q₂
v₂.r₂ = 2y₂.o
v₁.r₂ = y₂.o
x₂.p₁ = y₂.o
x₁.p₁ = 0
t₂² = 0
t₁.t₂ = 0
t₁² = 0
u.s = 0
v₂.r₁ = 0
v₁.r₁ = 0
w.q₂ = 0
w.q₁ = y₂.o
y₁.o = - 2y₁.x₃.q₂
u.r₂ = y₂.n - 2y₁.x₂.p₂
w.p₁ = y₂.n - 2y₁.x₂.p₂
x₃.o = - 2x₃².q₂
y₁.n = 2y₁.x₃.p₂ + 2y₁.x₂.p₂
t₂.s = 0
t₁.s = 0
u.r₁ = 0
v₂.q₂ = 0
v₂.q₁ = 0
v₁.q₂ = 0
v₁.q₁ = 0
x₂.o = - 2y₁.x₂.p₂
x₁.o = - 2y₁.x₂.p₂
x₃.n = 2x₃².p₂ - 2y₁.x₃².q₂
t₂.r₂ = 0
t₁.r₂ = 2y₂.m
v₂.p₁ = 2y₂.m
v₁.p₁ = y₂.m
x₂.n = y₂.m
x₁.n = 0
s² = 0
t₂.r₁ = 0
t₁.r₁ = 0
u.q₂ = 0
u.q₁ = y₂.m
w.o = y₂.m
y₁.m = - 2y₁.x₃².q₂
s.r₂ = 2y₂.l
u.p₁ = y₂.l
w.n = y₂.l
x₃.m = - 2x₃³.q₂ - y₁.x₃².p₂
y₁.l = y₁.x₃².p₂
s.r₁ = 0
t₂.q₂ = 0
t₂.q₁ = 0
t₁.q₂ = 0
t₁.q₁ = 0
v₂.o = - 2y₂.v₂.p₂
v₁.o = 0
x₂.m = 0
x₁.m = 0
x₃.l = x₃³.p₂ - 2y₁.x₃³.q₂
r₁.r₂ = - 2y₂.k
t₂.p₁ = 0
t₁.p₁ = 2y₂.k
v₂.n = 2y₂.k
v₁.n = y₂.k
x₂.l = y₂.k
x₁.l = 0
r₁² = 0
s.q₂ = 0
s.q₁ = 2y₂.k
u.o = y₂.k
w.m = y₂.k
y₁.k = 0
r₂.q₂ = - y₂.r₂²
s.p₁ = y₂.r₂²
u.n = - 2y₂.r₂²
w.l = - 2y₂.r₂²
x₃.k = - y₁.x₃³.p₂
r₁.q₂ = 0
r₁.q₁ = 0
t₂.o = - 2y₂.t₂.p₂
t₁.o = 0
v₂.m = 0
v₁.m = 0
x₂.k = 0
x₁.k = 0
r₁.p₁ = - y₂.r₂.q₁
t₂.n = 0
t₁.n = y₂.r₂.q₁
v₂.l = y₂.r₂.q₁
v₁.l = - 2y₂.r₂.q₁
q₂² = 0
q₁.q₂ = y₂.r₂.q₁
q₁² = 0
s.o = y₂.r₂.q₁
u.m = - 2y₂.r₂.q₁
w.k = - 2y₂.r₂.q₁
q₂.p₁ = - y₂.r₂.p₁
q₁.p₁ = r₂.o + y₂.r₂.p₁ + 2y₂.r₂.p₂
s.n = y₂.r₂.p₁
u.l = - 2y₂.r₂.p₁
r₁.o = 0
t₂.m = 0
t₁.m = 0
v₂.k = 0
v₁.k = 0
p₁² = r₂.n + y₂.r₂.o - 2y₂.q₁.p₂ + y₁.q₂.p₂
r₁.n = - y₂.r₂.o - 2y₁.q₂.p₂
t₂.l = 0
t₁.l = y₂.r₂.o
q₂.o = - y₂.r₂.o
q₁.o = y₂.r₂.o + 2y₂.q₁.p₂
s.m = y₂.r₂.o
u.k = - 2y₂.r₂.o
p₁.o = r₂.m - y₂.r₂.n + 2y₂.p₁.p₂
q₂.n = - y₂.r₂.n + 2x₃.q₂.p₂
q₁.n = r₂.m - y₂.p₁.p₂
s.l = y₂.r₂.n
r₁.m = 0
t₂.k = 0
t₁.k = 0
p₁.n = r₂.l + y₂.r₂.m + y₂.p₂.o - y₁.x₃.q₂.p₂
r₁.l = - y₂.r₂.m - y₁.x₃.q₂.p₂
o² = 0
q₂.m = - y₂.r₂.m + y₁.x₃.q₂.p₂
q₁.m = - y₂.p₂.o
s.k = y₂.r₂.m
o.n = r₂.k - 2y₂.r₂.l + x₃².q₂.p₂ + y₁.x₂.p₂²
p₁.m = r₂.k - y₂.r₂.l - 2y₂.p₂.n - y₁.x₂.p₂²
q₂.l = - y₂.r₂.l + x₃².q₂.p₂
q₁.l = r₂.k - y₂.r₂.l + 2y₂.p₂.n + y₁.x₂.p₂²
r₁.k = 0
n² = - 2r₂³ - x₃².p₂² - y₂.r₂.k - y₂.p₂.m + 2y₁.x₃².q₂.p₂
p₁.l = - 2r₂³ - y₂.r₂.k + y₂.p₂.m - 2y₁.x₃².q₂.p₂
o.m = - y₂.r₂.k + 2y₂.p₂.m - 2y₁.x₃².q₂.p₂
q₂.k = - y₂.r₂.k + y₁.x₃².q₂.p₂
q₁.k = - y₂.r₂.k + 2y₂.p₂.m
n.m = - 2r₂².q₁ + x₃³.q₂.p₂ + y₂.p₂.l - 2y₁.x₃².p₂²
o.l = - 2r₂².q₁ + 2y₂.r₂³ - 2x₃³.q₂.p₂ - 2y₂.p₂.l
p₁.k = - 2r₂².q₁ - 2y₂.r₂³ - 2y₂.p₂.l
n.l = - 2r₂².p₁ + 2x₃³.p₂² - y₂.r₂².q₁ - 2y₂.p₂.k - y₁.x₃³.q₂.p₂
m² = 0
o.k = - y₂.r₂².q₁ - 2y₁.x₃³.q₂.p₂
m.l = - 2r₂².o - 2y₂.r₂².p₁ - 2x₃⁴.q₂.p₂ - y₂.r₂².p₂ - y₁.x₃³.p₂²
n.k = - 2r₂².o + y₂.r₂².p₁ - 2y₁.x₃³.p₂²
l² = - 2r₂².n + x₃⁴.p₂² - y₂.r₂².o + y₁.x₃⁴.q₂.p₂
m.k = 2y₂.r₂².o - y₂.r₂.q₁.p₂ - 2y₁.x₃⁴.q₂.p₂
l.k = - 2r₂².m - 2y₂.r₂².n + y₂.r₂.p₁.p₂ - y₁.x₃⁴.p₂²
k² = 0

This minimal generating set constitutes a Gröbner basis for the relations ideal.

Essential ideal: There are 3 minimal generators:

y₁.x₂
y₂.v₂
y₂.t₂

Nilradical: There are 17 minimal generators:

y₂
y₁
x₂
x₁
w
v₂
v₁
u
t₂
t₁
s
r₁
q₂
q₁
o
m
k

Completion information

This cohomology ring was obtained from a calculation out to degree 30. The cohomology ring approximation is stable from degree 30 onwards, and Carlson's tests detect stability from degree 30 onwards.

This cohomology ring has dimension 2 and depth 1. Here is a homogeneous system of parameters:

h₁ = p₂ in degree 10
h₂ = r₂ + x₃⁴ in degree 8

The first term h₁ forms a regular sequence of maximum length. The remaining term h₂ is annihilated by the class x₁.

The first term h₁ forms a complete Duflot regular sequence. That is, its restriction to the greatest central elementary abelian subgroup forms a regular sequence of maximal length.

The ideal of essential classes is free of rank 3 as a module over the polynomial algebra on h₁. These free generators are:

G₁ = y₁.x₂ in degree 3
G₂ = y₂.v₂ in degree 5
G₃ = y₂.t₂ in degree 7

The essential ideal squares to zero.

Koszul information

A basis for R/(h₁, h₂) is as follows. Carlson's Koszul condition stipulates that this must be confined to degrees less than 18.

1 in degree 0
y₂ in degree 1
y₁ in degree 1
x₃ in degree 2
x₂ in degree 2
x₁ in degree 2
w in degree 3
y₁.x₃ in degree 3
y₁.x₂ in degree 3
x₃² in degree 4
v₂ in degree 4
v₁ in degree 4
u in degree 5
y₁.x₃² in degree 5
y₂.v₂ in degree 5
x₃³ in degree 6
t₂ in degree 6
t₁ in degree 6
s in degree 7
y₁.x₃³ in degree 7
y₂.t₂ in degree 7
x₃⁴ in degree 8
r₁ in degree 8
q₂ in degree 9
q₁ in degree 9
p₁ in degree 10
y₁.q₂ in degree 10
o in degree 11
x₃.q₂ in degree 11
n in degree 12
y₁.x₃.q₂ in degree 12
m in degree 13
x₃².q₂ in degree 13
l in degree 14
y₁.x₃².q₂ in degree 14
k in degree 15
x₃³.q₂ in degree 15
y₁.x₃³.q₂ in degree 16

A basis for Ann_R/(h₁)(h₂) is as follows. Carlson's Koszul condition stipulates that this must be confined to degrees less than 10.

x₁ in degree 2
y₁.x₂ in degree 3
v₂ - 2v₁ in degree 4
y₂.v₂ - 2y₂.v₁ in degree 5
t₂ in degree 6
y₂.t₂ in degree 7

Restriction information

Restrictions to maximal subgroups
Restrictions to maximal elementary abelian subgroups
Restriction to the greatest central elementary abelian subgroup

Restrictions to maximal subgroups

Restriction to maximal subgroup number 1, which is 125gp2

y₁ restricts to 0
y₂ restricts to y₁
x₁ restricts to 0
x₂ restricts to y₁.y₂
x₃ restricts to 0
w restricts to y₁.x₁
v₁ restricts to y₁.y₂.x₁
v₂ restricts to 2y₁.y₂.x₁
u restricts to y₁.x₁²
t₁ restricts to 2y₁.y₂.x₁²
t₂ restricts to 0
s restricts to 2y₁.x₁³
r₁ restricts to - 2y₁.y₂.x₁³
r₂ restricts to 2x₁⁴ - y₁.y₂.x₁³
q₁ restricts to 2y₂.x₁⁴ + y₁.x₁³.x₂ - 2y₁.x₁⁴
q₂ restricts to - 2y₁.x₁⁴
p₁ restricts to 2x₁⁵ - 2y₁.y₂.x₁⁴
p₂ restricts to - 2x₂⁵ + 2x₁⁴.x₂ + x₁⁵
o restricts to 2y₂.x₁⁵ - y₁.x₂⁵ + 2y₁.x₁⁴.x₂ - y₁.x₁⁵
n restricts to 2x₁⁶ + y₁.y₂.x₂⁵ - y₁.y₂.x₁⁴.x₂ + 2y₁.y₂.x₁⁵
m restricts to 2y₂.x₁⁶ - 2y₁.x₁.x₂⁵ - 2y₁.x₁⁵.x₂ - y₁.x₁⁶
l restricts to 2x₁⁷ - 2y₁.y₂.x₁.x₂⁵ + 2y₁.y₂.x₁⁵.x₂ - 2y₁.y₂.x₁⁶
k restricts to 2y₂.x₁⁷ - y₁.x₁².x₂⁵ + 2y₁.x₁⁶.x₂ - 2y₁.x₁⁷

Restriction to maximal subgroup number 2, which is 125gp3

y₁ restricts to y₂ + y₁
y₂ restricts to 0
x₁ restricts to 0
x₂ restricts to 0
x₃ restricts to x₄ + x₃
w restricts to 0
v₁ restricts to 0
v₂ restricts to y₂.w₁ - y₁.w₂
u restricts to 0
t₁ restricts to 0
t₂ restricts to - w₁.w₂ + 2y₁.x₃.w₂ + 2y₁.x₃.w₁
s restricts to 0
r₁ restricts to y₂.x₃².w₂ + y₁.x₄².w₁ - y₁.x₃.x₄.w₁ - y₁.x₃².w₂ + y₁.x₃².w₁
r₂ restricts to - 2r - 2x₃.x₄³ + x₃².x₄² - x₃³.x₄ + 2y₂.x₃².w₂ + 2y₁.x₄².w₁ - 2y₁.x₃.x₄.w₁
q₁ restricts to 2y₁.x₃.x₄³ - 2y₁.x₃².x₄² + 2y₁.x₃³.x₄ - 2y₁.x₃⁴
q₂ restricts to - x₄³.w₁ + x₃.x₄².w₁ - x₃².x₄.w₁ - x₃³.w₂ + x₃³.w₁ + 2y₁.x₃.x₄³ - 2y₁.x₃².x₄² + 2y₁.x₃³.x₄ + y₁.x₃⁴
p₁ restricts to 2x₃.x₄⁴ - 2x₃².x₄³ + 2x₃³.x₄² - 2x₃⁴.x₄ + 2y₂.x₃³.w₂ + 2y₁.x₄³.w₁
p₂ restricts to - x₃.x₄⁴ + 2x₃².x₄³ - 2x₃³.x₄² + p + 2y₂.x₃³.w₂ + 2y₁.x₄³.w₁ + 2y₁.x₃.x₄².w₁ - 2y₁.x₃².x₄.w₁ - 2y₁.x₃³.w₂ + 2y₁.x₃³.w₁
o restricts to 2x₄⁴.w₁ + 2x₃⁴.w₂ - 2y₁.x₃².x₄³ + 2y₁.x₃³.x₄² - 2y₁.x₃⁴.x₄ + 2y₁.x₃⁵
n restricts to 2x₃³.x₄³ - x₃⁴.x₄² + 2x₄.p + 2x₃.p + y₂.x₃⁴.w₂ + y₁.x₄⁴.w₁ + 2y₁.x₃⁴.w₂
m restricts to 2x₄⁵.w₁ + 2x₃⁵.w₂ - x₃⁵.w₁ + y₁.x₃³.x₄³ + y₁.x₃⁵.x₄ - y₁.x₃⁶ - y₂.x₃.p - y₁.x₄.p - 2y₁.x₃.p
l restricts to - 2x₃³.x₄⁴ + x₃⁴.x₄³ - x₃⁵.x₄² - 2x₃⁶.x₄ + x₄².p + 2x₃.x₄.p + x₃².p - y₂.x₃⁵.w₂ - y₁.x₄⁵.w₁ + 2y₁.x₃⁵.w₂ + 2y₁.x₃⁵.w₁
k restricts to - y₁.x₃⁴.x₄³ + 2y₁.x₃⁵.x₄² + y₁.x₃⁶.x₄ + y₁.x₃⁷ - y₂.x₃².p - y₁.x₄².p + 2y₁.x₃.x₄.p + 2y₁.x₃².p

Restriction to maximal subgroup number 3, which is 125gp4

y₁ restricts to y₁
y₂ restricts to - y₁
x₁ restricts to - 2y₁.y₂
x₂ restricts to y₁.y₂
x₃ restricts to - y₁.y₂
w restricts to 0
v₁ restricts to 0
v₂ restricts to 2y₂.w
u restricts to 0
t₁ restricts to 0
t₂ restricts to y₂.u
s restricts to 0
r₁ restricts to 0
r₂ restricts to 2x⁴ + 2y₂.s
q₁ restricts to - y₂.x⁴
q₂ restricts to 0
p₁ restricts to - x⁵
p₂ restricts to 2x⁵ - 2p + 2y₂.q
o restricts to - 2y₂.x⁵ + y₁.p
n restricts to - 2x⁶
m restricts to y₂.x⁶
l restricts to x⁷
k restricts to 2y₂.x⁷

Restriction to maximal subgroup number 4, which is 125gp4

y₁ restricts to - y₁
y₂ restricts to 2y₁
x₁ restricts to - y₁.y₂
x₂ restricts to 2y₁.y₂
x₃ restricts to y₁.y₂
w restricts to 0
v₁ restricts to 0
v₂ restricts to - 2y₂.w
u restricts to 0
t₁ restricts to 0
t₂ restricts to 2y₂.u
s restricts to 0
r₁ restricts to 0
r₂ restricts to 2x⁴ + 2y₂.s
q₁ restricts to - 2y₂.x⁴
q₂ restricts to 0
p₁ restricts to - 2x⁵
p₂ restricts to - x⁵ - p + y₂.q
o restricts to 2y₂.x⁵ - y₁.p
n restricts to 2x⁶ - y₁.y₂.p
m restricts to - 2y₂.x⁶
l restricts to - 2x⁷
k restricts to 2y₂.x⁷

Restriction to maximal subgroup number 5, which is 125gp4

y₁ restricts to y₁
y₂ restricts to y₁
x₁ restricts to 2y₁.y₂
x₂ restricts to 0
x₃ restricts to - y₁.y₂
w restricts to 0
v₁ restricts to 0
v₂ restricts to 2y₂.w
u restricts to 0
t₁ restricts to 0
t₂ restricts to - y₂.u
s restricts to 0
r₁ restricts to 0
r₂ restricts to 2x⁴ + 2y₂.s
q₁ restricts to y₂.x⁴
q₂ restricts to 0
p₁ restricts to x⁵
p₂ restricts to - 2x⁵ + 2p - 2y₂.q
o restricts to - 2y₂.x⁵ + y₁.p
n restricts to - 2x⁶ + y₁.y₂.p
m restricts to - y₂.x⁶
l restricts to - x⁷
k restricts to 2y₂.x⁷

Restriction to maximal subgroup number 6, which is 125gp4

y₁ restricts to - y₁
y₂ restricts to - 2y₁
x₁ restricts to y₁.y₂
x₂ restricts to - y₁.y₂
x₃ restricts to y₁.y₂
w restricts to 0
v₁ restricts to 0
v₂ restricts to - 2y₂.w
u restricts to 0
t₁ restricts to 0
t₂ restricts to - 2y₂.u
s restricts to 0
r₁ restricts to 0
r₂ restricts to 2x⁴ + 2y₂.s
q₁ restricts to 2y₂.x⁴
q₂ restricts to 0
p₁ restricts to 2x⁵
p₂ restricts to x⁵ + p - y₂.q
o restricts to 2y₂.x⁵ - y₁.p
n restricts to 2x⁶
m restricts to 2y₂.x⁶
l restricts to 2x⁷
k restricts to 2y₂.x⁷

Restrictions to maximal elementary abelian subgroups

Restriction to maximal elementary abelian number 1, which is V25

y₁ restricts to y₂
y₂ restricts to 0
x₁ restricts to 0
x₂ restricts to 0
x₃ restricts to x₂
w restricts to 0
v₁ restricts to 0
v₂ restricts to 0
u restricts to 0
t₁ restricts to 0
t₂ restricts to 0
s restricts to 0
r₁ restricts to - y₁.y₂.x₂³
r₂ restricts to 2y₁.y₂.x₂³
q₁ restricts to 0
q₂ restricts to y₂.x₁.x₂³ - y₁.x₂⁴
p₁ restricts to - 2y₁.y₂.x₂⁴
p₂ restricts to - x₁.x₂⁴ + x₁⁵ + y₁.y₂.x₂⁴
o restricts to - 2y₂.x₁.x₂⁴ + 2y₁.x₂⁵
n restricts to - 2x₁.x₂⁵ + 2x₁⁵.x₂
m restricts to - y₂.x₁.x₂⁵ - y₂.x₁⁵.x₂ + 2y₁.x₂⁶
l restricts to - x₁.x₂⁶ + x₁⁵.x₂² - y₁.y₂.x₂⁶
k restricts to y₂.x₁.x₂⁶ - y₂.x₁⁵.x₂²

Restriction to maximal elementary abelian number 2, which is V25

y₁ restricts to 0
y₂ restricts to 0
x₁ restricts to 0
x₂ restricts to 0
x₃ restricts to 0
w restricts to 0
v₁ restricts to 0
v₂ restricts to 0
u restricts to 0
t₁ restricts to 0
t₂ restricts to 0
s restricts to 0
r₁ restricts to 0
r₂ restricts to 2x₁⁴
q₁ restricts to - 2y₁.x₁⁴
q₂ restricts to 0
p₁ restricts to - 2x₁⁵
p₂ restricts to x₂⁵ - x₁⁴.x₂ - x₁⁵
o restricts to 2y₁.x₁⁵
n restricts to 2x₁⁶
m restricts to - 2y₁.x₁⁶
l restricts to - 2x₁⁷
k restricts to 2y₁.x₁⁷

Restriction to the greatest central elementary abelian subgroup

Restriction to the greatest central elementary abelian, which is C5

y₁ restricts to 0
y₂ restricts to 0
x₁ restricts to 0
x₂ restricts to 0
x₃ restricts to 0
w restricts to 0
v₁ restricts to 0
v₂ restricts to 0
u restricts to 0
t₁ restricts to 0
t₂ restricts to 0
s restricts to 0
r₁ restricts to 0
r₂ restricts to 0
q₁ restricts to 0
q₂ restricts to 0
p₁ restricts to 0
p₂ restricts to - x⁵
o restricts to 0
n restricts to 0
m restricts to 0
l restricts to 0
k restricts to 0

Poincaré series

(1 + 2t + 3t² + 3t³ + 3t⁴ + 3t⁵ + 3t⁶ + 3t⁷ + 2t⁸ + 2t⁹ + t¹⁰ + t¹¹ + t¹² + t¹³ + t¹⁴ + t¹⁵ + t¹⁶) / (1 - t⁸) (1 - t¹⁰)

Back to the groups of order 625