Small group number 3 of order 27

G = E27 is Extraspecial 3-group of order 27 and exponent 3

G has 2 minimal generators, rank 2 and exponent 3. The centre has rank 1.

The 4 maximal subgroups are: V9 (4x).

There are 4 conjugacy classes of maximal elementary abelian subgroups. Their ranks are: 2, 2, 2, 2.

This cohomology ring calculation is complete.

Ring structure

The cohomology ring has 9 generators:

• y₁ in degree 1, a nilpotent element
• y₂ in degree 1, a nilpotent element
• x₁ in degree 2
• x₂ in degree 2
• x₃ in degree 2
• x₄ in degree 2
• w₁ in degree 3, a nilpotent element
• w₂ in degree 3, a nilpotent element
• t in degree 6, a regular element

There are 21 minimal relations:

• y₂² = 0
• y₁.y₂ = 0
• y₁² = 0
• y₂.x₄ = y₁.x₁
• y₂.x₂ = - y₁.x₂
• y₂.x₁ = y₁.x₂ + y₁.x₁
• y₁.x₃ = y₁.x₁
• x₃.x₄ = x₁.x₂ + x₁²
• x₂.x₄ = - x₁.x₂ + y₁.w₁
• x₂.x₃ = x₁.x₂ + y₂.w₂ + y₁.w₂ - y₁.w₁
• x₂² = x₁.x₂ + y₁.w₂ - y₁.w₁
• x₁.x₄ = x₁.x₂ + x₁² - y₁.w₁
• x₁.x₃ = x₁² + y₁.w₂ - y₁.w₁
• y₂.w₁ = y₁.w₂ - y₁.w₁
• x₄.w₂ = x₄.w₁ + x₁.w₁ - y₁.x₁.x₂
• x₃.w₁ = x₁.w₁
• x₂.w₂ = y₁.x₁.x₂
• x₂.w₁ = x₁.w₂ + x₁.w₁ - y₁.x₁.x₂
• w₂² = 0
• w₁.w₂ = - y₁.x₁.w₂ - y₁.x₁.w₁
• w₁² = 0

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

Essential ideal: Zero ideal

Nilradical: There are 4 minimal generators:

• y₂
• y₁
• w₂
• w₁

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 Carlson's tests detect stability from degree 8 onwards.

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

• h₁ = t in degree 6
• h₂ = x₄ + x₃ - x₂ in degree 2

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

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 the zero ideal. 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 8.

• 1 in degree 0
• y₂ in degree 1
• y₁ in degree 1
• x₃ in degree 2
• x₂ in degree 2
• x₁ in degree 2
• w₂ in degree 3
• w₁ in degree 3
• y₁.x₂ in degree 3
• y₁.x₁ in degree 3
• y₂.w₂ in degree 4
• y₁.w₂ in degree 4
• y₁.w₁ in degree 4
• x₁.w₂ in degree 5
• x₁.w₁ in degree 5
• y₁.x₁.w₁ in degree 6

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 V9

• y₁ restricts to 0
• y₂ restricts to y₁
• x₁ restricts to 0
• x₂ restricts to y₁.y₂
• x₃ restricts to x₁
• x₄ restricts to 0
• w₁ restricts to 0
• w₂ restricts to y₂.x₁ - y₁.x₂
• t restricts to x₂³ - x₁².x₂

Restriction to maximal subgroup number 2, which is V9

• y₁ restricts to y₁
• y₂ restricts to 0
• x₁ restricts to - y₁.y₂
• x₂ restricts to y₁.y₂
• x₃ restricts to 0
• x₄ restricts to x₁
• w₁ restricts to y₂.x₁ - y₁.x₂
• w₂ restricts to y₂.x₁ - y₁.x₂
• t restricts to x₂³ - x₁².x₂ - y₁.y₂.x₁²

Restriction to maximal subgroup number 3, which is V9

• y₁ restricts to - y₁
• y₂ restricts to y₁
• x₁ restricts to x₁ + y₁.y₂
• x₂ restricts to x₁
• x₃ restricts to x₁
• x₄ restricts to - x₁
• w₁ restricts to - y₂.x₁ + y₁.x₂ + y₁.x₁
• w₂ restricts to - y₁.x₁
• t restricts to x₂³ - x₁².x₂ + x₁³ + y₁.y₂.x₁²

Restriction to maximal subgroup number 4, which is V9

• y₁ restricts to y₁
• y₂ restricts to y₁
• x₁ restricts to x₁ - y₁.y₂
• x₂ restricts to - y₁.y₂
• x₃ restricts to x₁
• x₄ restricts to x₁
• w₁ restricts to y₂.x₁ - y₁.x₂
• w₂ restricts to - y₂.x₁ + y₁.x₂
• t restricts to x₂³ - x₁².x₂

Restrictions to maximal elementary abelian subgroups

Restriction to maximal elementary abelian number 1, which is V9

• y₁ restricts to y₂ + y₁
• y₂ restricts to 0
• x₁ restricts to y₁.y₂
• x₂ restricts to - y₁.y₂
• x₃ restricts to 0
• x₄ restricts to x₂ + x₁
• w₁ restricts to - y₂.x₁ + y₁.x₂
• w₂ restricts to - y₂.x₁ + y₁.x₂
• t restricts to - x₁.x₂² + x₁².x₂ + y₁.y₂.x₂² - y₁.y₂.x₁.x₂ + y₁.y₂.x₁²

Restriction to maximal elementary abelian number 2, which is V9

• y₁ restricts to 0
• y₂ restricts to y₂
• x₁ restricts to 0
• x₂ restricts to - y₁.y₂
• x₃ restricts to x₂
• x₄ restricts to 0
• w₁ restricts to 0
• w₂ restricts to - y₂.x₁ + y₁.x₂
• t restricts to - x₁.x₂² + x₁³

Restriction to maximal elementary abelian number 3, which is V9

• y₁ restricts to y₂
• y₂ restricts to y₂
• x₁ restricts to x₂ + y₁.y₂
• x₂ restricts to y₁.y₂
• x₃ restricts to x₂
• x₄ restricts to x₂
• w₁ restricts to - y₂.x₁ + y₁.x₂
• w₂ restricts to y₂.x₁ - y₁.x₂
• t restricts to - x₁.x₂² + x₁³

Restriction to maximal elementary abelian number 4, which is V9

• y₁ restricts to - y₂
• y₂ restricts to y₂
• x₁ restricts to x₂ - y₁.y₂
• x₂ restricts to x₂
• x₃ restricts to x₂
• x₄ restricts to - x₂
• w₁ restricts to y₂.x₂ + y₂.x₁ - y₁.x₂
• w₂ restricts to - y₂.x₂
• t restricts to x₂³ - x₁.x₂² + x₁³ - y₁.y₂.x₂²

Restriction to the greatest central elementary abelian subgroup

Restriction to the greatest central elementary abelian, which is C3

• y₁ restricts to 0
• y₂ restricts to 0
• x₁ restricts to 0
• x₂ restricts to 0
• x₃ restricts to 0
• x₄ restricts to 0
• w₁ restricts to 0
• w₂ restricts to 0
• t restricts to - x³

Poincaré series

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