Finitely-generated algebra
In mathematics, a finitely generated algebra is an associative algebra A over a field K where there exists a finite set of elements a1,…,an of A such that every element of A can be expressed as a polynomial in a1,…,an, with coefficients in K. If it is necessary to emphasize the field K then the algebra is said to be finitely generated over K . Algebras that are not finitely generated are called infinitely generated. Finitely generated commutative algebras are basic objects of consideration in modern algebraic geometry, where they correspond to affine algebraic varieties; for this reason, these algebras are also referred to as (commutative) affine algebras.
Examples
- The polynomial algebra K[x1,…,xn] is finitely generated. The polynomial algebra in countably many generators is infinitely generated.
- The field E = K(t) of rational functions in one variable over a given field K is not a finitely generated algebra over K. On the other hand, E is generated over K by a single element, t, as a field.
- If E/F is a finite field extension then it follows from the definitions that E is a finitely generated algebra over F.
- Conversely, if E /F is a field extension and E is a finitely generated algebra over F then the field extension is finite, see integral extension.
- If G is a finitely generated group then the group ring KG is a finitely generated algebra over K.
Properties
See also