Norm on a commutative unital ring
Definition
Let be a commutative unital ring. A norm on is a function from the nonzero elements of to the nonnegative integers.
Note that the algebraic norm in a number field is not a norm in this sense for all number fields because it is not alwayts necessarily nonnegative.
Norms are typically used for integral domains.
Properties
For a complete list of properties, refer:
Category:Properties of norms on commutative unital rings
Multiplicative norm
Further information: Multiplicative norm
A norm on a commutative unital ring is termed multiplicative if the norm of a nonzero product of two elements is the product of their norms.
Characteristic norm
Further information: Characteristic norm
A norm on a commutative unital ring is termed characteristic if it is invariant under all automorphisms of the ring.
Other typical norm properties
- Multiplicatively monotone norm: The norm of a product is at least equal to the norm of each of the factors.
- Filtrative norm: The set of elements of norm less than , along with zero, forms an additive subgroup for any .