Hopf map

In the mathematical field of topology, the Hopf fibration (also known as the Hopf bundle or Hopf map) describes a 3-sphere (a hypersphere in four-dimensional space) in terms of circles and an ordinary sphere. Discovered by Heinz Hopf in 1931, it is an influential early example of a fiber bundle. Technically, Hopf found a many-to-one continuous function (or "map") from the $3$ -sphere onto the $2$ -sphere such that each distinct point of the $2$ -sphere comes from a distinct circle of the $3$ -sphere (Hopf 1931). Thus the $3$ -sphere is composed of fibers, where each fiber is a circle—one for each point of the $2$ -sphere.

This fiber bundle structure is denoted

meaning that the fiber space $S 1$ (a circle) is embedded in the total space $S 3$ (the $3$ -sphere), and $p : S 3 \to S 2$ (Hopf's map) projects $S 3$ onto the base space $S 2$ (the ordinary $2$ -sphere). The Hopf fibration, like any fiber bundle, has the important property that it is locally a product space. However it is not a trivial fiber bundle, i.e., $S 3$ is not globally a product of $S 2$ and $S 1$ although locally it is indistinguishable from it.

This has many implications: for example the existence of this bundle shows that the higher homotopy groups of spheres are not trivial in general. It also provides a basic example of a principal bundle, by identifying the fiber with the circle group.

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