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Harish-Chandra module

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In mathematics, specifically in the representation theory of Lie groups, a Harish-Chandra module, named after the Indian mathematician and physicist Harish-Chandra, is a representation of a real Lie group, associated to a general representation, with regularity and finiteness conditions. When the associated representation is a ( g , K ) {\displaystyle ({\mathfrak {g}},K)} -module, then its Harish-Chandra module is a representation with desirable factorization properties.

Definition

Let G be a Lie group and K a compact subgroup of G. If ( π , V ) {\displaystyle (\pi ,V)} is a representation of G, then the Harish-Chandra module of π {\displaystyle \pi } is the subspace X of V consisting of the K-finite smooth vectors in V. This means that X includes exactly those vectors v such that the map φ v : G V {\displaystyle \varphi _{v}:G\longrightarrow V} via

φ v ( g ) = π ( g ) v {\displaystyle \varphi _{v}(g)=\pi (g)v}

is smooth, and the subspace

span { π ( k ) v : k K } {\displaystyle {\text{span}}\{\pi (k)v:k\in K\}}

is finite-dimensional.

Notes

In 1973, Lepowsky showed that any irreducible ( g , K ) {\displaystyle ({\mathfrak {g}},K)} -module X is isomorphic to the Harish-Chandra module of an irreducible representation of G on a Hilbert space. Such representations are admissible, meaning that they decompose in a manner analogous to the prime factorization of integers. (Of course, the decomposition may have infinitely many distinct factors!) Further, a result of Harish-Chandra indicates that if G is a reductive Lie group with maximal compact subgroup K, and X is an irreducible ( g , K ) {\displaystyle ({\mathfrak {g}},K)} -module with a positive definite Hermitian form satisfying

k v , w = v , k 1 w {\displaystyle \langle k\cdot v,w\rangle =\langle v,k^{-1}\cdot w\rangle }

and

Y v , w = v , Y w {\displaystyle \langle Y\cdot v,w\rangle =-\langle v,Y\cdot w\rangle }

for all Y g {\displaystyle Y\in {\mathfrak {g}}} and k K {\displaystyle k\in K} , then X is the Harish-Chandra module of a unique irreducible unitary representation of G.

References

  • Vogan, Jr., David A. (1987), Unitary Representations of Reductive Lie Groups, Annals of Mathematics Studies, vol. 118, Princeton University Press, ISBN 978-0-691-08482-4

See also

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