Mod-19-Cohomology of Group number 3 of Order 171

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Mod-19-Cohomology of group number 3 of order 171

About the group Ring generators Ring relations Completion information Restriction maps

General information on the group

The group order factors as 3²· 19.
It is non-abelian.
It has 19-Rank 1.
The centre of a Sylow 19-subgroup has rank 1.
Its Sylow 19-subgroup has a unique conjugacy class of maximal elementary abelian subgroups, which is of rank 1.

Structure of the cohomology ring

The computation was based on 8 stability conditions for H^*(SmallGroup(19,1); GF(19)).

General information

The cohomology ring is of dimension 1 and depth 1.
The depth coincides with the Duflot bound.

The Poincaré series is

( − 1)·(1 − t + t² − t³ + t⁴ − t⁵ + t⁶ − t⁷ + t⁸ − t⁹ + t¹⁰ − t¹¹ + t¹² − t¹³ + t¹⁴ − t¹⁵ + t¹⁶)

( − 1 + t) · (1 − t + t²) · (1 + t + t²) · (1 − t³ + t⁶) · (1 + t³ + t⁶)

The a-invariants are -∞,-1. They were obtained using the filter regular HSOP of the Hilbert-Poincaré test.
The filter degree type of any filter regular HSOP is [-1, -1].

About the group Ring generators Ring relations Completion information Restriction maps

Ring generators

The cohomology ring has 2 minimal generators of maximal degree 18:

a_17_0, a nilpotent element of degree 17
c_18_0, a Duflot element of degree 18

About the group Ring generators Ring relations Completion information Restriction maps

Ring relations

There is one "obvious" relation:
a_17_0²

Apart from that, there are no relations.

About the group Ring generators Ring relations Completion information Restriction maps

Data used for the Hilbert-Poincaré test

We proved completion in degree 18 using the Hilbert-Poincaré criterion.
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_18_0, an element of degree 18
The above filter regular HSOP forms a Duflot regular sequence.
The Raw Filter Degree Type of the filter regular HSOP is [-1, 17].

About the group Ring generators Ring relations Completion information Restriction maps

Restriction maps

Expressing the generators as elements of H^*(SmallGroup(19,1); GF(19))

a_17_0 → c_2_0⁸·a_1_0
c_18_0 → c_2_0⁹

Restriction map to the greatest el. ab. subgp. in the centre of a Sylow subgroup, which is of rank 1

a_17_0 → c_2_0⁸·a_1_0, an element of degree 17
c_18_0 → c_2_0⁹, an element of degree 18

About the group Ring generators Ring relations Completion information Restriction maps

Simon King
Department of Mathematics and Computer Science
Friedrich-Schiller-Universität Jena
07737 Jena
GERMANY

E-mail:	simon dot king at uni hyphen jena dot de
Tel:	+49 (0)3641 9-46161
Fax:	+49 (0)3641 9-46162
Office:	Zi. 3529, Ernst-Abbe-Platz 2

Mod-19-Cohomology of group number 3 of order 171

General information on the group

Structure of the cohomology ring

General information

Ring generators

Ring relations

Data used for the Hilbert-Poincaré test

Restriction maps

Expressing the generators as elements of H*(SmallGroup(19,1); GF(19))

Restriction map to the greatest el. ab. subgp. in the centre of a Sylow subgroup, which is of rank 1

Expressing the generators as elements of H^*(SmallGroup(19,1); GF(19))