Does there exist a fibration $K(\mathbb{Z}_4,1)\rightarrow K(\mathbb{Z}_2,1)$, evidently with fiber $K(\mathbb{Z}_2,1)$?
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$\begingroup$ In homotopy theory, any map is a fibration. The one you are looking for is merely the one induced by the exact sequence of groups $1\to\Bbb Z_2\to\Bbb Z_4\to\Bbb Z_2\to0$. $\endgroup$– Alex DegtyarevCommented Mar 15, 2015 at 20:04
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Every map can be replaced by a weakly equivalent fibration, using the path space (see this MSE question). Can you see how to use this to answer your question?
answered Mar 15, 2015 at 20:04
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$\begingroup$ Thanks Tom. I was thinking about constructing explicit locally trivial bundle, I did not mention it in the question though. $\endgroup$ Commented Mar 15, 2015 at 20:23
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$\begingroup$ If you want a locally trivial fibre bundle, then you should say so in your question. A fibration (in the sense of Serre or Hurewicz) is a considerably weaker notion. In particular, path spaces are fibrations but (I think) not necessarily fibre bundles. $\endgroup$– ThiKuCommented Mar 16, 2015 at 2:16