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In functional analysis and related areas of mathematics a polar topology, topology of ${\displaystyle \mathcal{𝒜}}$-convergence or topology of uniform convergence on the sets of ${\displaystyle \mathcal{𝒜}}$ is a method to define locally convex topologies on the vector spaces of a dual pair.

Definitions

Let ${\displaystyle (X,Y,⟨,⟩)}$ be a dual pair ${\displaystyle (X,Y,⟨,⟩)}$ of vector spaces ${\displaystyle X}$ and ${\displaystyle Y}$ over the (same) field ${\displaystyle \mathbb{𝔽}}$ of real or complex numbers.

A set ${\displaystyle A\subseteq X}$ is said to be bounded in ${\displaystyle X}$ with respect to ${\displaystyle Y}$, if for each element ${\displaystyle y\in Y}$ the set of values ${\displaystyle \{⟨x,y⟩;x\in A\}}$ is bounded in ${\displaystyle \mathbb{𝔽}}$:

${\displaystyle \mathrm{\forall }y\in Y{\sup }_{x\in A}|⟨x,y⟩|<\mathrm{\infty }.}$

This condition is equivalent to the requirement that the polar ${\displaystyle A^{\circ }}$ of the set ${\displaystyle A}$ in ${\displaystyle Y}$

${\displaystyle A^{\circ }=\{y\in Y:{\sup }_{x\in A}|⟨x,y⟩|\le 1\}}$

is an absorbent set in ${\displaystyle Y}$, i.e.

${\displaystyle \bigcup _{\lambda \in \mathbb{𝔽}}\lambda \cdot A^{\circ }=Y.}$

Let now ${\displaystyle \mathcal{𝒜}}$ be a family of bounded sets in ${\displaystyle X}$ (with respect to ${\displaystyle Y}$) with the following properties:

• each point ${\displaystyle x}$ of ${\displaystyle X}$ belongs to some set ${\displaystyle A\in \mathcal{𝒜}}$

${\displaystyle \mathrm{\forall }x\in X\mathrm{\exists }A\in \mathcal{𝒜}x\in A,}$

• each two sets ${\displaystyle A\in \mathcal{𝒜}}$ and ${\displaystyle B\in \mathcal{𝒜}}$ are contained in some set ${\displaystyle C\in \mathcal{𝒜}}$:

${\displaystyle \mathrm{\forall }A,B\in \mathcal{𝒜}\mathrm{\exists }C\in \mathcal{𝒜}A\cup B\subseteq C,}$

• ${\displaystyle \mathcal{𝒜}}$ is closed under the operation of multiplication by scalars:

${\displaystyle \mathrm{\forall }A\in \mathcal{𝒜}\mathrm{\forall }\lambda \in \mathbb{𝔽}\lambda \cdot A\in \mathcal{𝒜}.}$

Then the seminorms of the form

${\displaystyle \Vert y{\Vert }_A={\sup }_{x\in A}|⟨x,y⟩|,A\in \mathcal{𝒜},}$

define a Hausdorff locally convex topology on ${\displaystyle Y}$ which is called the polar topology^[1] on ${\displaystyle Y}$ generated by the family of sets ${\displaystyle \mathcal{𝒜}}$. The sets

${\displaystyle U_B=\{x\in V:\Vert \phi {\Vert }_B<1\},B\in \mathcal{ℬ},}$

form a local base of this topology. A net of elements ${\displaystyle y_i\in Y}$ tends to an element ${\displaystyle y\in Y}$ in this topology if and only if

${\displaystyle \mathrm{\forall }A\in \mathcal{𝒜}\Vert y_i-y{\Vert }_A={\sup }_{x\in A}|⟨x,y_i⟩-⟨x,y⟩|\underset{i\to \mathrm{\infty }}{⟶}0.}$

Because of this the polar topology is often called the topology of uniform convergence on the sets of ${\displaystyle \mathcal{𝒜}}$. The semi norm ${\displaystyle \Vert y{\Vert }_A}$ is the gauge of the polar set ${\displaystyle A^{\circ }}$.

Examples

• if ${\displaystyle \mathcal{𝒜}}$ is the family of all bounded sets in ${\displaystyle X}$ then the polar topology on ${\displaystyle Y}$ coincides with the strong topology,
• if ${\displaystyle \mathcal{𝒜}}$ is the family of all finite sets in ${\displaystyle X}$ then the polar topology on ${\displaystyle Y}$ coincides with the weak topology,
• the topology of an arbitrary locally convex space ${\displaystyle X}$ can be described as the polar topology defined on ${\displaystyle X}$ by the family ${\displaystyle \mathcal{𝒜}}$ of all equicontinuous sets ${\displaystyle A\subseteq X^{\prime }}$ in the dual space ${\displaystyle X^{\prime }}$.^[2]

See also

• Topology consistent with the duality.

Notes

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References

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• 20 year-old Real Estate Agent Rusty from Saint-Paul, has hobbies and interests which includes monopoly, property developers in singapore and poker. Will soon undertake a contiki trip that may include going to the Lower Valley of the Omo.
  
  My blog: http://www.primaboinca.com/view_profile.php?userid=5889534

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