A global section of a fiber bundle with a contractible fiber is a continuous map that assigns a unique point in the fiber to every point in the base space. This means that the entire fiber is covered by the global section, and the fiber itself is contractible, meaning it can be continuously deformed to a single point.
A contractible fiber is important in fiber bundles because it allows for a global section to exist. This global section can then be used to study the properties of the bundle and its base space, as well as to define important concepts such as connections and parallel transport.
A global section is a type of cross section, but not all cross sections are global sections. A cross section is simply a continuous map that assigns a point in the fiber to every point in the base space, while a global section is a special type of cross section that covers the entire fiber and has the additional property of being a continuous deformation of the identity map on the base space.
No, a global section cannot always be defined for a fiber bundle with a contractible fiber. This is because the existence of a global section depends on the topology of both the base space and the fiber, and some topological spaces do not allow for global sections to be defined.
The global section has a significant impact on the topology of the fiber bundle. It allows for the construction of local trivializations, which can then be used to define a topological structure on the bundle. This topological structure is important for studying the properties of the bundle and its relationship to the base space.