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Equivalent representations

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Two representations $ \pi _ {1} $ and $ \pi _ {2} $ of a group (algebra, ring, semi-group) $ X $ in vector spaces $ E _ {1} $ and $ E _ {2} $, respectively, for which there is an intertwining operator which is a vector space isomorphism from $ E _ {1} $ to $ E _ {2} $( sometimes such representations are called algebraically equivalent); if $ \pi _ {1} $ and $ \pi _ {2} $ are representations in topological vector spaces $ E _ {1} $ and $ E _ {2} $, then $ \pi _ {1} $ and $ \pi _ {2} $ are called topologically equivalent if there is an intertwining operator for $ \pi _ {1} $ and $ \pi _ {2} $ which is a topological vector space isomorphism from $ E _ {1} $ to $ E _ {2} $. The term "equivalent representations" is also used to define some other equivalence relations: For example, two representations are called weakly equivalent if there is a closed operator with a dense domain of definition and a dense range that intertwines these representations. Two representations of a Lie group in Banach spaces are called infinitesimally equivalent if the induced representations of the universal enveloping algebra on their spaces of analytic vectors are algebraically equivalent. Two representations of an algebra are sometimes called equivalent, or isomorphic, if their kernels coincide; two representations of a topological group are called equivalent if the induced representations of some group algebra of this group are isomorphic.

How to Cite This Entry:
Equivalent representations. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Equivalent_representations&oldid=46843
This article was adapted from an original article by A.I. Shtern (originator), which appeared in Encyclopedia of Mathematics - ISBN 1402006098. See original article