Strong deformation retract: Difference between revisions

This article defines a property over pairs of a topological space and a subspace, or equivalently, properties over subspace embeddings (viz, subsets) in topological spaces

Definition

Symbol-free definition

A subspace of a topological space is termed a deformation retract (sometimes strong deformation retract) if there is a homotopy between the identity map on the whole space, and a retraction onto the subspace, such that the map at every intermediate stage, restricts to identity on the subspace.

Definition with symbols

A subspace ${\displaystyle A}$ of a topolofical space ${\displaystyle X}$ is termed a deformation retract (sometimes strong deformation retract) of ${\displaystyle X}$ if there is a homotopy ${\displaystyle F:X\times I\to X}$ such that:

• ${\displaystyle f(x,0)=x\ \forall \ x\in X}$
• ${\displaystyle f(a,t)=a\ \forall \ a\in A,t\in I}$
• ${\displaystyle f(x,1)\in A\ \forall \ x\in X}$

The second condition is what distinguishes deformation retracts from the weaker notion of homotopy retract.

Relation with other properties

Weaker properties

• Homotopy retract
• Retract

Metaproperties

Transitivity

This property of subspaces of topological spaces is transitive. In other words, if ${\displaystyle A}$ satisfies the property as a subspace of ${\displaystyle B}$ and ${\displaystyle B}$ satisfies the property as a subspace of ${\displaystyle C}$ then ${\displaystyle A}$ satisfies the property as a subspace of ${\displaystyle C}$

If ${\displaystyle A}$ is a deformation retract of ${\displaystyle B}$ and ${\displaystyle B}$ is a deformation retract of ${\displaystyle C}$ then ${\displaystyle A}$ is a deformation retract of ${\displaystyle C}$.

Template:DP-closed subspace property

If ${\displaystyle A_{i}}$ is a deformation retract of ${\displaystyle B_{i}}$ for ${\displaystyle i=1,2}$ then ${\displaystyle A_{1}\times A_{2}}$ is a deformation retract of ${\displaystyle B_{1}\times B_{2}}$.