Difference between revisions of "Open problems"

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== General problems ==
 
== General problems ==
  
* Is the isomorphism type of the defect group a Morita invariant?
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* [[Is the isomorphism type of the defect group a Morita invariant?]]
 
* Is <math>{\rm Pic}_\mathcal{O}(B)</math> always finite?
 
* Is <math>{\rm Pic}_\mathcal{O}(B)</math> always finite?
 
* Is every Morita equivalence between <math>\mathcal{O}</math>-blocks endopermutation source?
 
* Is every Morita equivalence between <math>\mathcal{O}</math>-blocks endopermutation source?
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* Which Brauer trees give rise to blocks with defect group <math>C_7</math>? (This is the smallest cyclic group for which the classification is not known).
 
* Which Brauer trees give rise to blocks with defect group <math>C_7</math>? (This is the smallest cyclic group for which the classification is not known).
 
== Picard groups ==
 
  
 
== Basic algebras of dimension 9 ==
 
== Basic algebras of dimension 9 ==
  
 
Does the 9-dimensional algebra described in [[Blocks with basic algebras of low dimension]] occur as the basic algebra of a block of a finite group?
 
Does the 9-dimensional algebra described in [[Blocks with basic algebras of low dimension]] occur as the basic algebra of a block of a finite group?

Revision as of 13:53, 3 January 2019

This page is for open problems, large and small, relating to module categories for blocks. Missing data is also flagged within tables elsewhere on this site.

General problems

Open cases for classifications of Morita equivalence classes for a given [math]p[/math]-group

  • Which Brauer trees give rise to blocks with defect group [math]C_7[/math]? (This is the smallest cyclic group for which the classification is not known).

Basic algebras of dimension 9

Does the 9-dimensional algebra described in Blocks with basic algebras of low dimension occur as the basic algebra of a block of a finite group?