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FiberBundle
Fiber bundles are a central concept in topology and differential geometry, and are crucial in various applications in physics. They provide a way to systematically understand spaces that locally resemble a product of two simpler spaces, but have a more complex global structure.
A fiber bundle consists of four main components:
- Total Space (E): This is the space that the fiber bundle is describing.
- Base Space (B): A topological space over which the total space is 'bundled'.
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Projection Map (π): A continuous surjection from
$E$ onto$B$ . This map 'projects' each point in$E$ down to a point in$B$ . -
Fiber (F): The preimage of a point in
$B$ under the projection map$π$ , denoted as$π^{-1}(x)$ for$x \in B$ , is called the fiber over$x$ . Each fiber is homeomorphic to a fixed space$F$ .
In mathematical terms, a fiber bundle is denoted as
This requires that for every point in the base space, there exists a neighborhood
In specific types of bundles, particularly vector and principal bundles, real or complex numbers play a crucial role:
- Vector Bundles: These have fibers that are real or complex vector spaces.
- Principal Bundles: In these bundles, the fiber is often a real or complex Lie group.
Fiber bundles can also be defined over other fields like quaternions
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Quaternionic Vector Bundles: These have fibers that are quaternionic vector spaces
$\mathbb{H}^n$ , and appear in specialized contexts in theoretical physics and quaternionic analysis.