Infinitesimal character

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In mathematics, the infinitesimal character of an irreducible representation ${\displaystyle \rho }$ of a semisimple Lie group ${\displaystyle G}$ on a vector space ${\displaystyle V}$ is, roughly speaking, a mapping to scalars that encodes the process of first differentiating and then diagonalizing the representation. It therefore is a way of extracting something essential from the representation ${\displaystyle \rho }$ by two successive linearizations.

The infinitesimal character is the linear form on the center ${\displaystyle Z}$ of the universal enveloping algebra of the Lie algebra of ${\displaystyle G}$ that the representation induces. This construction relies on some extended version of Schur's lemma to show that any ${\displaystyle z}$ in ${\displaystyle Z}$ acts on ${\displaystyle V}$ as a scalar, which by abuse of notation could be written ${\displaystyle \rho (z)}$.

In more classical language, ${\displaystyle z}$ is a differential operator, constructed from the infinitesimal transformations which are induced on ${\displaystyle V}$ by the Lie algebra of ${\displaystyle G}$. The effect of Schur's lemma is to force all ${\displaystyle v}$ in ${\displaystyle V}$ to be simultaneous eigenvectors of ${\displaystyle z}$ acting on ${\displaystyle V}$. Calling the corresponding eigenvalue:

${\displaystyle \lambda =\lambda (z)}$

the infinitesimal character is by definition the mapping:

${\displaystyle z\rightarrow \lambda (z)}$

There is scope for further formulation. By the Harish-Chandra isomorphism, the center ${\displaystyle Z}$ can be identified with the subalgebra of elements of the symmetric algebra of the Cartan subalgebra a that are invariant under the Weyl group, so an infinitesimal character can be identified with an element of:

${\displaystyle a^{*}\otimes C/W}$

the orbits under the Weyl group ${\displaystyle W}$ of the space ${\displaystyle a^{*}\otimes C}$ of complex linear functions on the Cartan subalgebra.

• Knapp, Anthony W., and Anthony William Knapp. Lie groups beyond an introduction. Vol. 140. Boston: Birkhäuser, 1996.

• Harish-Chandra isomorphism