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Mod-11-Cohomology of J1, a group of order 175560
| About the group | Ring generators | Ring relations | Completion information | Restriction maps |
General information on the group
- J1 is a group of order 175560.
- The group order factors as
23 · 3 · 5 · 7 · 11 · 19 . - The group is defined by Group([(1,262)(2,107)(3,21)(4,213)(5,191)(6,22)(7,133)(8,234)(9,232)(10,151)(11,139)(12,176)(13,202)(14,253)(15,222)(17,195)(18,206)(19,68)(20,55)(23,179)(24,217)(25,216)(26,256)(27,87)(28,70)(29,131)(30,44)(31,105)(32,170)(33,77)(34,104)(35,198)(36,137)(37,243)(38,56)(39,124)(40,223)(41,134)(43,174)(46,51)(47,128)(48,94)(49,250)(50,264)(52,183)(53,231)(54,115)(57,85)(58,233)(59,261)(60,95)(61,235)(62,177)(63,249)(64,91)(65,247)(66,155)(69,219)(71,237)(72,211)(73,84)(74,192)(75,130)(76,251)(79,260)(80,112)(81,193)(82,156)(83,242)(86,238)(88,143)(89,168)(90,148)(92,119)(93,212)(96,150)(97,199)(98,140)(99,189)(100,180)(101,147)(102,111)(103,159)(106,162)(108,194)(109,166)(110,200)(113,120)(114,141)(116,182)(117,181)(118,225)(121,254)(122,125)(123,146)(126,208)(127,221)(129,210)(132,255)(136,175)(138,207)(142,240)(144,172)(145,185)(149,224)(152,169)(153,241)(154,190)(157,214)(158,161)(160,236)(163,239)(164,229)(165,230)(167,188)(171,258)(173,186)(178,245)(184,205)(187,228)(197,203)(201,252)(209,248)(215,259)(218,246)(220,227)(257,263)(265,266),(1,146,21)(2,132,82)(4,156,166)(5,242,253)(6,107,28)(7,125,76)(8,245,130)(9,174,42)(10,241,244)(11,264,63)(12,248,234)(13,36,44)(14,116,128)(15,47,25)(16,178,112)(17,170,110)(18,197,74)(19,233,180)(20,121,96)(22,228,155)(23,48,173)(24,201,187)(26,136,190)(27,212,94)(29,175,52)(30,77,32)(31,237,34)(33,226,90)(35,129,54)(37,161,114)(38,232,87)(39,219,192)(40,78,159)(41,139,71)(43,211,251)(45,222,240)(46,97,135)(49,70,131)(50,153,200)(51,186,209)(53,203,216)(55,169,64)(56,140,230)(57,260,118)(58,91,243)(59,199,227)(60,108,164)(61,208,101)(62,206,106)(65,103,66)(67,95,205)(68,73,225)(69,151,113)(72,221,152)(75,143,202)(79,217,254)(80,93,122)(81,181,252)(83,258,126)(84,163,177)(85,154,213)(86,182,196)(88,133,215)(89,117,247)(92,191,160)(99,229,263)(100,138,188)(102,194,157)(105,149,184)(109,123,193)(111,137,183)(115,238,235)(119,167,147)(120,134,189)(124,185,265)(127,218,261)(141,231,210)(142,239,236)(144,224,249)(145,158,220)(148,214,172)(150,250,259)(162,257,256)(165,179,246)(176,195,266)(198,204,207)(223,262,255)]).
- It is non-abelian.
- It has 11-Rank 1.
- The centre of a Sylow 11-subgroup has rank 1.
- Its Sylow 11-subgroup has a unique conjugacy class of maximal elementary abelian subgroups, which is of rank 1.
Structure of the cohomology ring
This cohomology ring is isomorphic to the cohomology ring of a subgroup, namely H*(SmallGroup(110,1); GF(11)).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 − t17 + t18) ( − 1 + t) · (1 + t2) · (1 − t + t2 − t3 + t4) · (1 + t + t2 + t3 + t4) · (1 − t2 + t4 − t6 + t8) - 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 20:
-
a_19_0 , a nilpotent element of degree 19 -
c_20_0 , a Duflot element of degree 20
| About the group | Ring generators | Ring relations | Completion information | Restriction maps |
Ring relations
There is one "obvious" relation:
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 20 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:
c_20_0 , an element of degree 20
- The above filter regular HSOP forms a Duflot regular sequence.
- The Raw Filter Degree Type of the filter regular HSOP is [-1, 19].
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Restriction maps
Expressing the generators as elements of H*(SmallGroup(110,1); GF(11))
-
a_19_0 →a_19_0 -
c_20_0 →c_20_0
Restriction map to the greatest el. ab. subgp. in the centre of a Sylow subgroup, which is of rank 1
-
a_19_0 →c_2_09·a_1_0 , an element of degree 19 -
c_20_0 →c_2_010 , an element of degree 20
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Simon King Department of Mathematics and Computer Science Friedrich-Schiller-Universität Jena 07737 Jena GERMANY
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