Change of fiber: Difference between revisions

Given a fibration p:E→B, the change of fiber is a map between the fibers induced by paths in B.

Since a covering is a fibration, the construction generalizes the corresponding facts in the theory of covering spaces.

If β is a path in B, then we have the homotopy ${\displaystyle h:p^{-1}(b)\times I\to I{\overset {\beta }{\to }}B}$ where the first map is a projection. Since p is a fibration, by the homotopy lifting property, h lifts to a homotopy ${\displaystyle g:p^{-1}(b)\times I\to E}$ with ${\displaystyle g_{0}:p^{-1}(b)\hookrightarrow E}$. We have:

${\displaystyle g_{t}:p^{-1}(b)\to p^{-1}(\beta (t))}$.

We let ${\displaystyle \tau (\beta )=g_{1}}$. Let ${\displaystyle \operatorname {Pc} (B)}$ denotes the set of path classes in B. We claim that the τ we have just constructed induces:

${\displaystyle \tau :\operatorname {Pc} (B)\to }$ the set of homotopy classes of maps.

It is immediate from the construction that the map is a homomorphism:

${\displaystyle \tau ([\beta ]\cdot [\gamma ])=\tau ([\beta ])\tau ([\gamma ])}$.

One can get a substitute for a structure group.

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