nLab focal point

Contents

Definition

A point of a topological space is called focal (Freyd-Scedrov) if its only open neighbourhood is the entire space.

The closed point $\bot$ of Sierpinski space $\mathbf{2}$ is a focal point.
The vertex $v$ of a Sierpinski cone (or scone) $s(X)$ on a space $X$ , given by a pushout in $Top$

$\array{ 1 \times X & \to & 1 \\ \mathllap{\bot \times 1_X} \downarrow & & \downarrow \mathrlap{v} \\ \mathbf{2} \times X & \to & s(X), }$

is a focal point. This construction is in fact the same as generically adding a focal point to $X$ .
The prime spectrum of a ring $A$ has a focal point iff $A$ is a local ring. In this case, the focal point is given by the unique maximal ideal of $A$ .

The category of sheaves over (the site of open subsets) of a topological space with focal point is a local topos.

Every topos has a free “completion” to a “focal space”, given by its Freyd cover.

A locale $X$ is called local if in any covering of $X$ by opens $U_i$ , at least one $U_i$ is $X$ .

The locale associated to an sober space is local in this sense if and only if the space possesses a focal point (see Johnstone, discussion preceding lemma C1.5.6). Locale theoretically, this point is then given by the frame homomorphism

\mathcal{O}(X) \to \Omega, \quad U \mapsto \{ \star | U = X \},

where $\Omega$ is the frame of opens of the point.

Last revised on December 30, 2013 at 11:38:28. See the history of this page for a list of all contributions to it.