Admissible Representations

Admissible representations

Arun Ram
Department of Mathematics and Statistics
University of Melbourne
Parkville, VIC 3010 Australia
aram@unimelb.edu.au

Last update: 21 November 2012

Representations

A representation of a group $G$ , or a $G$ -module, is an action of $G$ on a vector space $V$ by automorphisms (invertible linear transformations). A representation of an algebra $A$ , or $A$ -module, is an action of $A$ on a vector space $V$ by endomorphisms (linear transformations). A morphism $T : V_{1} \to V_{2}$ of $A$ -modules is a linear transformation such that $T (a v) = a T (v),$ for all $a \in A$ and $v \in V .$ An $A$ -module $M$ is simple, or irreducible, if it has no submodules except $0$ and itself.

A representation of a topological group $G$ , or a $G$ -module, is an action of $G$ on a topological vector space $V$ by automorphisms (continuous invertible linear transformations) such that the map $\begin{array}{rcl} G \times V & \to & V \\ (g v) & \mapsto & g v \end{array}$ is continuous. When dealing with representations of topological groups all submodules are assumed to be closed subspaces.

A $*$ -representation of a $*$ -algebra $A$ is an action of $A$ on a Hilbert space $H$ by bounded operators such that $⟨ a v_{1}, v_{2} ⟩ = ⟨ v_{1}, a * v_{2} ⟩, for all v_{1}, v_{2} \in V, a \in A .$ A $*$ -representation of $A$ on $H$ is nondegenerate if $A V = {a v | a \in A, v \in V}$ is dense in $V$ .

A unitary representation of a topological group $G$ , or $G$ -module, is an action of $G$ on a Hilbert space $V$ by automorphisms (unitary continuous invertible linear transformations) such that the action $G \times V \to V$ is a continuous map.

An admissable representation of an idempotented algebra $(A, ℰ)$ is an action of $A$ on a vector space $V$ by linear transformations such that

$V = \underset{e \in ℰ}{\cup} e V,$
each $e V$ is finite dimensional.

A representation of an idempotented algebra is smooth if it satisfies (a).

Notes and References

These are from a subsection entitled Representations of Representation Thery notes Chapter 4, Book2003/chap41.17.03.pdf.

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