Center (ring theory)

In algebra, the center of a ring R is the subring consisting of the elements x such that xy = yx for all elements y in R. It is a commutative ring and is denoted as Z(R); 'Z' stands for the German word Zentrum, meaning "center".

If R is a ring, then R is an associative algebra over its center. Conversely, if R is an associative algebra over a commutative subring S, then S is a subring of the center of R, and if S happens to be the center of R, then the algebra R is called a central algebra.

The center of a commutative ring R is R itself.

The center of a is a field.

skew-field

The center of the (full) with entries in a commutative ring R consists of R-scalar multiples of the identity matrix.^[1]

matrix ring

Let F be a of a field k, and R an algebra over k. Then Z(R ⊗_k F) = Z(R) ⊗_k F.

field extension

The center of the of a Lie algebra plays an important role in the representation theory of Lie algebras. For example, a Casimir element is an element of such a center that is used to analyze Lie algebra representations. See also: Harish-Chandra isomorphism.

Center (ring theory)

skew-field

matrix ring

field extension

universal enveloping algebra

simple algebra

Center of a group

Central simple algebra

Morita equivalence