Topological ring

In mathematics, a topological ring is a ring R which is also a topological space such that both the addition and the multiplication are continuous as maps

where R × R carries the product topology.

General comments

The group of units R^× of R is a topological group when endowed with the topology coming from the embedding of R^× into the product R × R as (x,x⁻¹). However if the unit group is endowed with the subspace topology as a subspace of R, it may not be a topological group, because inversion on R^× need not be continuous with respect to the subspace topology. An example of this situation is the adele ring of a global field; its unit group, called the idele group, is not a topological group in the subspace topology. If inversion on R^× is continuous in the subspace topology of R then these two topologies on R^× are the same.

If one does not require a ring to have a unit, then one has to add the requirement of continuity of the additive inverse, or equivalently, to define the topological ring as a ring which is a topological group (for +) in which multiplication is continuous, too.