Square thread form

In topology, a branch of mathematics, collapse is a concept due to J. H. C. Whitehead.^[1]

Definition

Let ${\displaystyle K}$ be an abstract simplicial complex.

Suppose that ${\displaystyle \tau ,\sigma \in K}$ such that the following two conditions are satisfied:

(i) ${\displaystyle \tau \subset \sigma }$, in particular ${\displaystyle \dim \tau <\dim \sigma }$;

(ii) ${\displaystyle \sigma }$ is a maximal face of K and no other maximal face of K contains ${\displaystyle \tau }$,

then ${\displaystyle \tau }$ is called a free face.

A simplicial collapse of K is the removal of all simplices ${\displaystyle \gamma }$ such that ${\displaystyle \tau \subseteq \gamma \subseteq \sigma }$, provided that ${\displaystyle \tau }$ is a free face. If additionally we have dim τ = dim σ-1, then this is called an elementary collapse.

A simplicial complex that has a collapse to a point is called collapsible. Every collapsible complex is contractible, but the converse is not true.

This definition can be extended to CW-complexes and is the basis for the concept of simple-homotopy equivalence.^[2]

Examples

• Complexes that do not have a free face cannot be collapsible. Two such interesting examples are Bing's house with two rooms and Zeeman's dunce hat; they are contractible (homotopy equivalent to a point), but not collapsible.
• Any n-dimensional PL manifold that is collapsible is in fact piecewise-linearly isomorphic to an n-ball.^[1]

References

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See also

• Shelling (topology)

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