Harish-Chandra character

(Redirected from Distributional character)

In mathematics, the Harish-Chandra character, named after Harish-Chandra, of a representation of a semisimple Lie group G on a Hilbert space H is a distribution on the group G that is analogous to the character of a finite-dimensional representation of a compact group.

Definition

edit

Suppose that π is an irreducible unitary representation of G on a Hilbert space H. If f is a compactly supported smooth function on the group G, then the operator on H

 

is of trace class, and the distribution

 

is called the character (or global character or Harish-Chandra character) of the representation.

The character Θπ is a distribution on G that is invariant under conjugation, and is an eigendistribution of the center of the universal enveloping algebra of G, in other words an invariant eigendistribution, with eigenvalue the infinitesimal character of the representation π.

Harish-Chandra's regularity theorem states that any invariant eigendistribution, and in particular any character of an irreducible unitary representation on a Hilbert space, is given by a locally integrable function.

References

edit
  • A. W. Knapp, Representation Theory of Semisimple Groups: An Overview Based on Examples. ISBN 0-691-09089-0