Small group number 235 of order 64

G is the group 64gp235

The Hall-Senior number of this group is 161.

G has 4 minimal generators, rank 3 and exponent 4. The centre has rank 2.

There are 2 conjugacy classes of maximal elementary abelian subgroups. Their ranks are: 3, 3.

This cohomology ring calculation is complete.

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

Ring structure

The cohomology ring has 7 generators:

y₁ in degree 1, a nilpotent element
y₂ in degree 1, a nilpotent element
y₃ in degree 1
y₄ in degree 1
w in degree 3
v₁ in degree 4, a regular element
v₂ in degree 4, a regular element

There are 6 minimal relations:

y₃.y₄ = y₂.y₃ + y₁²
y₂² = y₁.y₂ + y₁²
y₁².y₄ = y₁².y₃ + y₁².y₂
y₁³ = 0
y₁².w = 0
w² = y₄³.w + y₂.y₄².w + y₁.y₄².w + y₁.y₃².w + y₁.y₂.y₄.w + y₄².v₂ + y₄².v₁ + y₃².v₂ + y₃².v₁ + y₁.y₂.v₂ + y₁.y₂.v₁ + y₁².v₂

A minimal Gröbner basis for the relations ideal consists of this minimal generating set, together with the following redundant relation:

y₁².y₃² = 0

Completion information

This cohomology ring was obtained from a calculation out to degree 12. The cohomology ring approximation is stable from degree 6 onwards, and Benson's tests detect stability from degree 7 onwards.

This cohomology ring has dimension 3 and depth 2. Here is a homogeneous system of parameters:

h₁ = v₁ in degree 4
h₂ = v₂ in degree 4
h₃ = y₄² + y₃² in degree 2

The first 2 terms h₁, h₂ form a regular sequence of maximum length.

The first 2 terms h₁, h₂ form a complete Duflot regular sequence. That is, their restrictions to the greatest central elementary abelian subgroup form a regular sequence of maximal length.

Data for Benson's test:

Raw filter degree type: -1, -1, 4, 7.
Filter degree type: -1, -2, -3, -3.
α = 0
The system of parameters is very strongly quasi-regular.
The regularity conjecture is satisfied.

Koszul information

A basis for R/(h₁, h₂, h₃) is as follows.

1 in degree 0
y₄ in degree 1
y₃ in degree 1
y₂ in degree 1
y₁ in degree 1
y₃² in degree 2
y₂.y₄ in degree 2
y₂.y₃ in degree 2
y₁.y₄ in degree 2
y₁.y₃ in degree 2
y₁.y₂ in degree 2
y₁² in degree 2
w in degree 3
y₂.y₃² in degree 3
y₁.y₃² in degree 3
y₁.y₂.y₄ in degree 3
y₁.y₂.y₃ in degree 3
y₁².y₃ in degree 3
y₁².y₂ in degree 3
y₄.w in degree 4
y₃.w in degree 4
y₂.w in degree 4
y₁.w in degree 4
y₁.y₂.y₃² in degree 4
y₁².y₂.y₃ in degree 4
y₃².w in degree 5
y₂.y₄.w in degree 5
y₂.y₃.w in degree 5
y₁.y₄.w in degree 5
y₁.y₃.w in degree 5
y₁.y₂.w in degree 5
y₂.y₃².w in degree 6
y₁.y₃².w in degree 6
y₁.y₂.y₄.w in degree 6
y₁.y₂.y₃.w in degree 6
y₁.y₂.y₃².w in degree 7

A basis for Ann_{R/(h₁, h₂)}(h₃) is as follows.

y₁² in degree 2
y₁².y₃ in degree 3
y₁².y₂ in degree 3
y₁².y₂.y₃ in degree 4

Restriction information

Restriction to special subgroup number 1, which is 4gp2

y₁ restricts to 0
y₂ restricts to 0
y₃ restricts to 0
y₄ restricts to 0
w restricts to 0
v₁ restricts to y₂⁴
v₂ restricts to y₂⁴ + y₁⁴

Restriction to special subgroup number 2, which is 8gp5

y₁ restricts to 0
y₂ restricts to 0
y₃ restricts to y₃
y₄ restricts to 0
w restricts to y₁².y₃
v₁ restricts to y₂².y₃² + y₂⁴
v₂ restricts to y₂².y₃² + y₂⁴ + y₁⁴

Restriction to special subgroup number 3, which is 8gp5

y₁ restricts to 0
y₂ restricts to 0
y₃ restricts to 0
y₄ restricts to y₃
w restricts to y₃³ + y₁².y₃
v₁ restricts to y₃⁴ + y₂².y₃² + y₂⁴ + y₁².y₃²
v₂ restricts to y₃⁴ + y₂².y₃² + y₂⁴ + y₁⁴

Poincaré series

(1 + 4t + 7t² + 7t³ + 5t⁴ + 4t⁵ + 3t⁶ + t⁷) / (1 - t²) (1 - t⁴)²

Back to the groups of order 64