Algebraic character explained

An algebraic character is a formal expression attached to a module in representation theory of semisimple Lie algebras that generalizes the character of a finite-dimensional representation and is analogous to the Harish-Chandra character of the representations of semisimple Lie groups.

Definition

Let

ak{g}

be a semisimple Lie algebra with a fixed Cartan subalgebra

ak{h},

and let the abelian group

A=Z[[ak{h}^*]]

consist of the (possibly infinite) formal integral linear combinations of

e^\mu

, where

\mu\inak{h}^*

, the (complex) vector space of weights. Suppose that

is a locally-finite weight module. Then the algebraic character of

is an element of

defined by the formula:

ch(V)=\sum_\mu\dimV_\mue^\mu,

where the sum is taken over all weight spaces of the module

Example

M_λ

with the highest weight

is given by the formula

ch(M_λ)=

	e^λ
	\prod_\alpha>0(1-e^-\alpha)

with the product taken over the set of positive roots.

Properties

Algebraic characters are defined for locally-finite weight modules and are additive, i.e. the character of a direct sum of modules is the sum of their characters. On the other hand, although one can define multiplication of the formal exponents by the formula

e^\mu ⋅ e^\nu=e^\mu+\nu

and extend it to their finite linear combinations by linearity, this does not make

into a ring, because of the possibility of formal infinite sums. Thus the product of algebraic characters is well defined only in restricted situations; for example, for the case of a highest weight module, or a finite-dimensional module. In good situations, the algebraic character is multiplicative, i.e., the character of the tensor product of two weight modules is the product of their characters.

Generalization

Characters also can be defined almost verbatim for weight modules over a Kac–Moody or generalized Kac–Moody Lie algebra.

References

Book: Weyl, Hermann. The Classical Groups: Their Invariants and Representations. Princeton University Press. 1946. 0-691-05756-7. registration. 2007-03-26.
Book: Kac, Victor G. Infinite-Dimensional Lie Algebras. Cambridge University Press. 1990. 0-521-46693-8. 2007-03-26.
Book: Wallach, Nolan R. Goodman, Roe. Representations and Invariants of the Classical Groups. Cambridge University Press. 1998. 0-521-66348-2. 2007-03-26.