David J. Green

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Cohomology of group number 117 of order 128

About the group

Ring generators

Ring relations

Completion information

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General information on the group

• The group has 2 minimal generators and exponent 16.
• It is non-abelian.
• It has p-Rank 3.
• Its center has rank 1.
• It has a unique conjugacy class of maximal elementary abelian subgroups, which is of rank 3.

Structure of the cohomology ring

General information

• The cohomology ring is of dimension 3 and depth 1.
• The depth coincides with the Duflot bound.
• The Poincaré series is

  t6  −  t5  −  t4  +  2·t3  −  2·t2  +  t  −  1

  (t  −  1)3 · (t2  +  1) · (t4  +  1)

• The a-invariants are -∞,-5,-3,-3. They were obtained using the filter regular HSOP of the Benson test.

About the group

Ring generators

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Ring generators

The cohomology ring has 13 minimal generators of maximal degree 8:

1. a_1_0, a nilpotent element of degree 1
2. a_1_1, a nilpotent element of degree 1
3. a_2_0, a nilpotent element of degree 2
4. a_2_1, a nilpotent element of degree 2
5. b_2_2, an element of degree 2
6. b_2_3, an element of degree 2
7. b_3_4, an element of degree 3
8. b_3_5, an element of degree 3
9. a_5_5, a nilpotent element of degree 5
10. a_5_7, a nilpotent element of degree 5
11. a_6_7, a nilpotent element of degree 6
12. a_6_9, a nilpotent element of degree 6
13. c_8_17, a Duflot regular element of degree 8

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Ring relations

There are 53 minimal relations of maximal degree 12:

1. a_1_0²
2. a_1_1²
3. a_1_0·a_1_1
4. a_2_0·a_1_0
5. a_2_1·a_1_1
6. a_2_1·a_1_0 + a_2_0·a_1_1
7. b_2_3·a_1_0 + b_2_2·a_1_1 + b_2_2·a_1_0 + a_2_0·a_1_1
8. a_2_0²
9. a_2_0·a_2_1
10. a_2_1²
11. a_1_1·b_3_4 + a_2_0·b_2_3 + a_2_0·b_2_2
12. a_1_0·b_3_4 + a_2_0·b_2_2
13. a_1_1·b_3_5 + a_2_1·b_2_3 + a_2_1·b_2_2
14. a_1_0·b_3_5 + a_2_1·b_2_2
15. b_2_2·b_2_3·a_1_1
16. b_2_2²·a_1_0 + a_2_0·b_3_4
17. a_2_1·b_3_4 + a_2_0·b_3_5
18. b_2_3²·a_1_1 + b_2_2²·a_1_1 + b_2_2²·a_1_0 + a_2_1·b_3_5
19. b_3_4² + b_2_2·b_2_3² + b_2_2²·b_2_3 + b_2_2³ + a_2_0·b_2_2·b_2_3
20. b_3_5² + b_2_3³ + a_2_1·b_2_3² + a_2_1·b_2_2·b_2_3 + a_2_1·b_2_2²
21. a_2_1·b_2_2·b_2_3 + a_2_1·b_2_2² + a_1_1·a_5_5
22. a_2_1·b_2_2² + a_2_0·b_2_2·b_2_3 + a_1_0·a_5_5
23. a_1_1·a_5_7
24. a_2_1·b_2_2·b_2_3 + a_2_0·b_2_2·b_2_3 + a_1_0·a_5_7
25. a_2_0·b_2_3·b_3_4 + a_2_0·b_2_2·b_3_5 + a_2_0·a_5_5
26. b_2_3·a_5_5 + b_2_2·a_5_7 + a_2_1·a_5_5
27. a_2_1·a_5_5 + a_2_0·a_5_7
28. a_2_1·a_5_7 + a_2_1·a_5_5
29. a_2_0·b_2_3·b_3_4 + a_2_0·b_2_2·b_3_5 + a_6_7·a_1_1 + a_2_1·a_5_5
30. a_2_0·b_2_3·b_3_4 + a_2_0·b_2_2·b_3_5 + a_6_7·a_1_0
31. a_6_9·a_1_1
32. a_6_9·a_1_0 + a_2_1·a_5_5
33. b_3_4·a_5_7 + b_2_3·a_6_7 + a_2_1·b_2_3³ + a_2_0·b_2_2²·b_2_3
34. b_3_4·a_5_5 + b_2_2·a_6_7 + a_2_0·b_2_2²·b_2_3 + a_2_0·b_2_2³
35. b_2_2·a_1_0·a_5_5 + a_2_0·a_6_7
36. b_2_2·a_1_0·a_5_7 + a_2_1·a_6_7
37. b_3_5·a_5_7 + b_2_3·a_6_9 + a_2_0·b_2_2²·b_2_3 + b_2_2·a_1_0·a_5_7
38. b_3_5·a_5_5 + b_2_2·a_6_9 + a_2_0·b_2_2³ + b_2_2·a_1_0·a_5_7 + b_2_2·a_1_0·a_5_5
39. b_2_2·a_1_0·a_5_7 + a_2_0·a_6_9
40. b_2_2·a_1_0·a_5_7 + a_2_1·a_6_9
41. a_6_7·b_3_4 + b_2_2·b_2_3·a_5_7 + b_2_2²·a_5_7 + b_2_2²·a_5_5 + a_2_0·b_2_3²·b_3_5
       + a_2_0·b_2_2²·b_3_4
42. a_6_9·b_3_4 + a_6_7·b_3_5 + a_2_1·b_2_3²·b_3_5 + a_2_0·b_2_2²·b_3_5
       + a_2_0·b_2_2²·b_3_4 + a_2_0·b_2_2·a_5_5
43. a_6_9·b_3_5 + b_2_3²·a_5_7 + a_2_0·b_2_2²·b_3_5
44. a_5_7² + a_5_5·a_5_7
45. a_5_5² + a_2_0·b_2_2·a_6_7
46. a_5_5·a_5_7 + a_2_0·b_2_2·a_6_9
47. a_6_7·a_5_5 + a_2_0·b_2_2²·a_5_7
48. a_6_9·a_5_5 + a_6_7·a_5_7 + a_2_0·b_2_2²·a_5_5
49. a_6_9·a_5_7 + a_6_7·a_5_7 + a_2_0·b_2_2²·a_5_7
50. a_6_7·a_5_7 + a_2_0·b_2_2²·a_5_7 + a_2_0·c_8_17·a_1_1
51. a_6_7² + a_2_0·b_2_2²·a_6_7
52. a_6_7·a_6_9 + a_2_0·b_2_2²·a_6_9 + a_2_0·b_2_2²·a_6_7
53. a_6_9² + a_2_0·b_2_2²·a_6_9

About the group

Ring generators

Ring relations

Completion information

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Back to groups of order 128

Data used for Benson′s test

• Benson′s completion test succeeded in degree 12.
• 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:
  1. c_8_17, a Duflot regular element of degree 8
  2. b_2_3² + b_2_2·b_2_3 + b_2_2², an element of degree 4
  3. b_2_3, an element of degree 2
• The Raw Filter Degree Type of that HSOP is [-1, 3, 9, 11].
• The filter degree type of any filter regular HSOP is [-1, -2, -3, -3].

About the group

Ring generators

Ring relations

Completion information

Restriction maps

Back to groups of order 128

Restriction maps

Restriction map to the greatest central el. ab. subgp., which is of rank 1

1. a_1_0 → 0, an element of degree 1
2. a_1_1 → 0, an element of degree 1
3. a_2_0 → 0, an element of degree 2
4. a_2_1 → 0, an element of degree 2
5. b_2_2 → 0, an element of degree 2
6. b_2_3 → 0, an element of degree 2
7. b_3_4 → 0, an element of degree 3
8. b_3_5 → 0, an element of degree 3
9. a_5_5 → 0, an element of degree 5
10. a_5_7 → 0, an element of degree 5
11. a_6_7 → 0, an element of degree 6
12. a_6_9 → 0, an element of degree 6
13. c_8_17 → c_1_0⁸, an element of degree 8

Restriction map to a maximal el. ab. subgp. of rank 3

1. a_1_0 → 0, an element of degree 1
2. a_1_1 → 0, an element of degree 1
3. a_2_0 → 0, an element of degree 2
4. a_2_1 → 0, an element of degree 2
5. b_2_2 → c_1_2², an element of degree 2
6. b_2_3 → c_1_1², an element of degree 2
7. b_3_4 → c_1_2³ + c_1_1·c_1_2² + c_1_1²·c_1_2, an element of degree 3
8. b_3_5 → c_1_1³, an element of degree 3
9. a_5_5 → 0, an element of degree 5
10. a_5_7 → 0, an element of degree 5
11. a_6_7 → 0, an element of degree 6
12. a_6_9 → 0, an element of degree 6
13. c_8_17 → c_1_1⁴·c_1_2⁴ + c_1_1⁶·c_1_2² + c_1_0²·c_1_1²·c_1_2⁴
       + c_1_0²·c_1_1⁴·c_1_2² + c_1_0⁴·c_1_2⁴ + c_1_0⁴·c_1_1²·c_1_2²
       + c_1_0⁴·c_1_1⁴ + c_1_0⁸, an element of degree 8

About the group

Ring generators

Ring relations

Completion information

Restriction maps

Back to groups of order 128