Completely reducible linear representation: Difference between revisions

Revision as of 13:08, 23 October 2023

This article describes a property to be evaluated for a linear representation of a group, i.e. a homomorphism from the group to the general linear group of a vector space over a field

This article gives a basic definition in the following area: linear representation theory
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Definition

Symbol-free definition

A linear representation of a group is said to be completely reducible if it can be expressed as a direct sum of irreducible linear representations.

Examples

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Non-examples

$(\mathbb {Z} ,+)$ has representations that are not completely reducible - for example the representation $\rho$ such that $\rho (N)={\begin{pmatrix}1&N\\0&1\end{pmatrix}}$ for $N\in \mathbb {Z}$ can be shown to be a representation which is not completely reducible.

Relation with other properties

Stronger properties

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 & N\\
 & 1
-\end{pmatrix}</math> for <math>N \in \mathbb{Z}</math> can be shown to be a representation which is not completely reducible.
+\end{pmatrix}</math> for <math>N \in \mathbb{Z}</math> can be shown to be a representation which is ''not'' completely reducible.
 ==Relation with other properties==