Jump to content

Inverse-producing extensions of Topological Algebras/circular set

From Wikiversity

Definition: Circular Set

[edit | edit source]

Let a vector space over , then is circular, if and only if for all and for all also is valid.

Lemma: neighborhood base of the zero vector with circular sets

[edit | edit source]

In a topological vector space there is a neighborhood base of zero vector consisting of balanced (circular) sets.

Proof

[edit | edit source]

Be as desired. A and a zero environment with

with . The quantity is circular.

Proof by contradiction

[edit | edit source]

We now show that is also a zero environment in . The assumption is that is not a zero environment. is without restriction.

Proof 1: existence of a network

[edit | edit source]

If is not a zero environment, there is a network which is converged against the zero vector

Proof 2: Convergence against zero vector

[edit | edit source]

If a network is converged against the zero vector , there is also an index barrier "" means the partial order on the index quantity .

Proof 3: scalar multiplication for convergent networks

[edit | edit source]

If a network is converged against the zero vector , it also converges because of the stiffness of the multiplication with scalers in a topological vector space against the zero vector.

Proof 4: scalar multiplication for convergent networks

[edit | edit source]

Define now a network with for all , which after proof step 3 also against the zero vector Then there is again an index cabinet , for which all are valid if applies. Here too, "" refers to the partial order on the index quantity .

Proof 5: contradiction

[edit | edit source]

Select in the index quantity such that and . For all the following applies with proof step 1, 4 and :

  • .

Proof 4: circular zero environment

[edit | edit source]

is also a circular zero environment and any environment contains a circular zero environment with . The quantity is a zero environmental base of circular quantities.


Remark: circular zero environment base

[edit | edit source]

With this statement, a zero-environmental basis of circular quantities exists in each topological vector space.

Cut circular zero environments

[edit | edit source]

In topological vector spaces (and thus also topological algebras), it is shown that there is a zero environmental base of circular quantities . The circular configuration provides the absolute homogeneity of the Gaugefunctional.

Lemma: Cut circular zero environments

[edit | edit source]

Be circular zero environments in a topological vector space , then also is a balanced neighborhood of zero.

Proof

[edit | edit source]

from follows circularly, for all with , and

Intersection of open sets

[edit | edit source]

In a topological space (in particular also in a topological vector space) , the intersection of two open quantities is again open, i.e. (see Norms, metrics, topology). are neighborhood of the zero vector, then is valid. Thus, is an open set containing the zero vector and this yields .

Intersection circular

[edit | edit source]

We now show that is circular. Be selected as and with . This applies to and . The circularity of and then supplies and and thus also .

Learning Tasks

[edit | edit source]
  • For the definition of , show that the set is circular.
  • Check if the sum of two circular neighborhoods of the zero vector is again a circular neighborhoods of the zero vector.
  • Check if the union of two circular neighborhoods of the zero vector are circular again

See also

[edit | edit source]


Page Information

[edit | edit source]

You can display this page as Wiki2Reveal slides

Wiki2Reveal

[edit | edit source]

The Wiki2Reveal slides were created for the Inverse-producing extensions of Topological Algebras' and the Link for the Wiki2Reveal Slides was created with the link generator.