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On Kulkarni's theorems on degree reduction for polynomial modules

Published online by Cambridge University Press:  01 May 2003

STEPHEN DONKIN
Affiliation:
School of Mathematical Sciences, Queen Mary, University of London, Mile End Rd, London E1 4NS. e-mail: [email protected]

Abstract

In a recent paper [13], Kulkarni proves that, for $i\ges 0$, one has

$\Ext^{i}_{G}(M \otimes \delta(\mu), \nabla(\lambda))\cong \Ext^{i}{G}(M, \nabla(\lambda/\mu))$

– an isomorphism of spaces of extensions of rational modules. Here G is a general linear group scheme, $\lambda, \mu$ are partitions and M is a polynomial G-module. The modules $\Delta (\mu)$, $\nabla (\lambda)$ and $\nabla (\lambda/\mu)$ are respectively the Weyl module labelled by $\mu$, the induced module labelled by $\lambda$ and the skew module labelled by $\lambda /\mu$. A similar result is given in which the roles of $\Delta$ and $\nabla$ are interchanged.

Our purpose here is to set this result in the context of the representation theory of an arbitrary reductive group. Specifically, we prove a simple result which is valid for general reductive groups and derive Kulkarni's results from this. For convenience we work over an algebraically closed field k.

Type
Research Article
Copyright
2003 Cambridge Philosophical Society

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