Difference between revisions of "Classification by p-group"

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'''Classification of Morita equivalences for blocks with a given defect group'''
 
'''Classification of Morita equivalences for blocks with a given defect group'''
  
On this page we list classifications of Morita equivalence classes for each isomorphism class of p-groups in turn. [[Results by p-group class|Information on broad classes of p-groups can be found here]].
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On this page we list classifications of Morita equivalence classes for each isomorphism class of p-groups in turn. [[Results by p-group class|Generic classifications for classes of p-groups can be found here]].
  
 
We use the following notation for Morita equivalence classes of blocks of finite groups with respect to an algebraically closed field k.  
 
We use the following notation for Morita equivalence classes of blocks of finite groups with respect to an algebraically closed field k.  

Revision as of 07:37, 31 August 2018

Classification of Morita equivalences for blocks with a given defect group

On this page we list classifications of Morita equivalence classes for each isomorphism class of p-groups in turn. Generic classifications for classes of p-groups can be found here.

We use the following notation for Morita equivalence classes of blocks of finite groups with respect to an algebraically closed field k.

[math]M(x,y,z)[/math] is a class consisting of blocks with defect groups of order x, with a representative having defect group SmallGroup(x,y) in GAP/MAGMA labelling. It is the z-th such class.

Note that it is not known that the isomorphism class of a defect group is a Morita invariant, so it could be that [math]M(x,y1,z1)=M(x,y2,z2)[/math] for some [math](y1,z1) \neq (y2,z2)[/math].

Also, at present there is no known example of a k-Morita equivalence class of blocks which splits into more than one Morita equivalence class with respect to a complete discrete valuation ring. If such an example arises, then we will bring in more notation for classes with respect to the d.v.r.

Blocks of defect zero

Blocks for [math] p=2 [/math]

Blocks for [math]p=3[/math]

Blocks for [math]p=5[/math]

Blocks for [math]p\geq 7[/math]