Extreme set

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In mathematics, most commonly in convex geometry, an extreme set or face of a set ${\displaystyle C\subseteq V}$ in a vector space ${\displaystyle V}$ is a subset ${\displaystyle F\subseteq C}$ with the property that if for any two points ${\displaystyle x,y\in C}$ some in-between point ${\displaystyle z=\theta x+(1-\theta )y,\theta \in [0,1]}$ lies in ${\displaystyle F}$, then we must have had ${\displaystyle x,y\in F}$.^[1]

An extreme point of ${\displaystyle C}$ is a point ${\displaystyle p\in C}$ for which ${\displaystyle \{p\}}$ is a face.^[1]

An exposed face of ${\displaystyle C}$ is the subset of points of ${\displaystyle C}$ where a linear functional achieves its minimum on ${\displaystyle C}$. Thus, if ${\displaystyle f}$ is a linear functional on ${\displaystyle V}$ and ${\displaystyle \alpha =\inf \{f(c):c\in C\}>-\mathrm{\infty }}$, then ${\displaystyle \{c\in C:f(c)=\alpha \}}$ is an exposed face of ${\displaystyle C}$.

An exposed point of ${\displaystyle C}$ is a point ${\displaystyle p\in C}$ such that ${\displaystyle \{p\}}$ is an exposed face. That is, ${\displaystyle f(p)>f(c)}$ for all ${\displaystyle c\in C\setminus \{p\}}$.

An exposed face is a face, but the converse is not true (see the figure). An exposed face of ${\displaystyle C}$ is convex if ${\displaystyle C}$ is convex. If ${\displaystyle F}$ is a face of ${\displaystyle C\subseteq V}$, then ${\displaystyle E\subseteq F}$ is a face of ${\displaystyle F}$ if and only if ${\displaystyle E}$ is a face of ${\displaystyle C}$.

Some authors do not include ${\displaystyle C}$ and/or ${\displaystyle \varnothing }$ among the (exposed) faces. Some authors require ${\displaystyle F}$ and/or ${\displaystyle C}$ to be convex (else the boundary of a disc is a face of the disc, as well as any subset of the boundary) or closed. Some authors require the functional ${\displaystyle f}$ to be continuous in a given vector topology.

• Face (geometry)

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• TOPOLOGICAL VECTOR SPACES AND CONTINUOUS LINEAR FUNCTIONALS, Chapter III of FUNCTIONAL ANALYSIS, Lawrence Baggett, University of Colorado Boulder.
• Functional Analysis, Peter Philip, Ludwig-Maximilians-universität München, 2024