Tompson LEe Posted July 14, 2018 Share Posted July 14, 2018 This question is inspired by one question, which was about representations that can be realised homologically by an action on a graph (i.e., a 1-dimensional complex).Many interesting integral representations of groups arise via homology from a group acting on a simplicial complex that is homotopy equivalent to a wedge of spheres. A classical example is the action of groups of Lie type on spherical buildings. On homology this gives an integral form of the Steinberg representation.One may ask if there exists a complex of lower dimension than the Tits building that realises the (integral) Steinberg representation in this way. I am guessing that the answer is No, but how to prove it?More generally, given an integral G-representation that can be realised as the homology of a spherical complex with an action of G, is there an effective lower bound on the dimension of such a complex? One obvious lower bound is given by the minimal length of a resolution by permutation representations. Is this something that has been studied? Link to comment Share on other sites More sharing options...
mathematic Posted July 14, 2018 Share Posted July 14, 2018 Try Mathematics stack exchange. You are more likely to get a response. 1 Link to comment Share on other sites More sharing options...
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