## On eigenvectors for semisimple elements in actions of algebraic groups

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##### Authors

Kenneally, Darren John

##### Advisors

Lawther, Ross

##### Date

2010-02-09##### Awarding Institution

University of Cambridge

##### Author Affiliation

Department of Pure Mathematics and Mathematical Statistics

##### Qualification

PhD

##### Language

English

##### Type

Thesis

##### Metadata

Show full item record##### Citation

Kenneally, D. J. (2010). On eigenvectors for semisimple elements in actions of algebraic groups (doctoral thesis).

##### Abstract

Let $G$ be a simple simply connected algebraic group defined over an algebraically closed field $K$ and $V$ an irreducible module defined over $K$ on which $G$ acts. Let $E$ denote the set of vectors in $V$ which are eigenvectors for some non-central semisimple element of $G$ and some eigenvalue in $K^∗$. We prove, with a short list of possible exceptions, that the dimension of $\overline{E}$ is strictly less than the dimension of $V$ provided $\dim V > \dim G + 2$ and that there is equality otherwise. In particular, by considering only the eigenvalue $1$, it follows that the closure of the union of fixed point spaces of non-central semisimple elements has dimension strictly less than the dimension of $V$ provided $\dim V > \dim G + 2$, with a short list of possible exceptions.
In the majority of cases we consider modules for which $\dim V > \dim G + 2$ where we
perform an analysis of weights. In many of these cases we prove that, for any non-central semisimple element and any eigenvalue, the codimension of the eigenspace exceeds $\dim G$.
In more difficult cases, when $\dim V$ is only slightly larger than $\dim G + 2$, we subdivide the analysis according to the type of the centraliser of the semisimple element. Here we prove for each type a slightly weaker inequality which still suffices to establish the main result. Finally, for the relatively few modules satisfying $\dim V \leq \dim G + 2$, an immediate observation yields the result for $\dim V < \dim B$ where $B$ is a Borel subgroup of $G$, while in other cases we argue directly.

##### Keywords

Representation theory, Algebraic groups, Group theory, Eigenvectors

##### Identifiers

This record's URL: http://www.dspace.cam.ac.uk/handle/1810/224782