Simon King
David J. Green
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Cohomology of group number 76 of order 128
General information on the group
- The group has 2 minimal generators and exponent 8.
- It is non-abelian.
- It has p-Rank 4.
- Its center has rank 2.
- It has a unique conjugacy class of maximal elementary abelian subgroups, which is of rank 4.
Structure of the cohomology ring
General information
- The cohomology ring is of dimension 4 and depth 3.
- The depth exceeds the Duflot bound, which is 2.
- The Poincaré series is
( − 1) · (t4 − t3 − 1) |
| (t + 1)2 · (t − 1)4 · (t2 + 1) |
- The a-invariants are -∞,-∞,-∞,-4,-4. They were obtained using the filter regular HSOP of the Benson test.
Ring generators
The cohomology ring has 9 minimal generators of maximal degree 4:
- a_1_0, a nilpotent element of degree 1
- a_1_1, a nilpotent element of degree 1
- b_2_1, an element of degree 2
- b_2_2, an element of degree 2
- c_2_3, a Duflot regular element of degree 2
- a_3_5, a nilpotent element of degree 3
- b_3_4, an element of degree 3
- b_3_6, an element of degree 3
- c_4_10, a Duflot regular element of degree 4
Ring relations
There are 16 minimal relations of maximal degree 6:
- a_1_02
- a_1_0·a_1_1
- a_1_13
- b_2_1·a_1_1
- b_2_2·a_1_0
- a_1_0·a_3_5
- a_1_1·b_3_4 + c_2_3·a_1_12
- a_1_0·b_3_4
- a_1_1·b_3_6 + c_2_3·a_1_12
- b_2_1·a_3_5 + b_2_1·c_2_3·a_1_0
- a_1_12·a_3_5
- a_3_5·b_3_4 + b_2_22·a_1_12 + c_2_3·a_1_1·a_3_5
- b_3_42 + b_2_1·b_2_22 + c_2_32·a_1_12
- b_3_62 + b_2_1·a_1_0·b_3_6 + b_2_12·c_2_3 + c_2_32·a_1_12
- a_3_5·b_3_6 + c_2_3·a_1_0·b_3_6 + c_2_3·a_1_1·a_3_5
- a_3_52 + b_2_2·a_1_1·a_3_5 + c_4_10·a_1_12 + b_2_2·c_2_3·a_1_12 + c_2_32·a_1_12
Data used for Benson′s test
- Benson′s completion test succeeded in degree 6.
- The completion test was perfect: It applied in the last degree in which a generator or relation was found.
- The following is a filter regular homogeneous system of parameters:
- c_2_3, a Duflot regular element of degree 2
- c_4_10, a Duflot regular element of degree 4
- b_2_2 + b_2_1, an element of degree 2
- b_3_4, an element of degree 3
- The Raw Filter Degree Type of that HSOP is [-1, -1, -1, 4, 7].
- The filter degree type of any filter regular HSOP is [-1, -2, -3, -4, -4].
- We found that there exists some filter regular HSOP formed by the first 2 terms of the above HSOP, together with 2 elements of degree 2.
Restriction maps
Restriction map to the greatest central el. ab. subgp., which is of rank 2
- a_1_0 → 0, an element of degree 1
- a_1_1 → 0, an element of degree 1
- b_2_1 → 0, an element of degree 2
- b_2_2 → 0, an element of degree 2
- c_2_3 → c_1_02, an element of degree 2
- a_3_5 → 0, an element of degree 3
- b_3_4 → 0, an element of degree 3
- b_3_6 → 0, an element of degree 3
- c_4_10 → c_1_14 + c_1_04, an element of degree 4
Restriction map to a maximal el. ab. subgp. of rank 4
- a_1_0 → 0, an element of degree 1
- a_1_1 → 0, an element of degree 1
- b_2_1 → c_1_22, an element of degree 2
- b_2_2 → c_1_32 + c_1_2·c_1_3, an element of degree 2
- c_2_3 → c_1_32 + c_1_02, an element of degree 2
- a_3_5 → 0, an element of degree 3
- b_3_4 → c_1_2·c_1_32 + c_1_22·c_1_3, an element of degree 3
- b_3_6 → c_1_22·c_1_3 + c_1_0·c_1_22, an element of degree 3
- c_4_10 → c_1_1·c_1_2·c_1_32 + c_1_1·c_1_22·c_1_3 + c_1_12·c_1_32 + c_1_12·c_1_2·c_1_3
+ c_1_12·c_1_22 + c_1_14 + c_1_0·c_1_2·c_1_32 + c_1_0·c_1_22·c_1_3 + c_1_02·c_1_32 + c_1_02·c_1_2·c_1_3 + c_1_02·c_1_22 + c_1_04, an element of degree 4
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