Given a topological space X one can define several notion of compactness:
X is compact if every open cover has a finite subcover.
X is sequentially compact if every sequence has a convergent subsequence.
X is limit point compact (or Bolzano-Weierstrass) if every infinite set has an accumulation point.
X is countably compact if every countable open cover has a finite subcover.
X is σ-compact if it is the union of countably many compact subspaces.
X is pseudocompact if its if its image under any continuous function to $mathbb{R}$ is
bounded.
X is paracompact if every open cover admits an open locally finite refinement (i.e. every point of X has a neighborhood small enough to intersect only finitely many members of the cover).
X is metacompact if every open cover admits a point finite open refinement (i.e. if every point of X is in only finitely many members of the refinement).
X is orthocompact if every open cover has an interior preserving open refinement (i.e. given an open cover there is a open subcover such that at any point, the intersection of all open sets in the subcover containing that point is also open).
X is mesocompact if every open cover has a compact-finite open refinement (i.e. given any open cover, we can find an open refinement such that every compact set is contained in finitely many members of the refinement).
So, there are quite a few notions of compactness (there are surely more than those I quoted up here). The question is: where are these definitions systematically studied? What I'm interested in particular is knowing when does one imply the other, when does it not (examples), &c.
I can fully answer the question for the first three notions:
Compact and first-countable --> Sequentially compact.
Sequentially compact and second-countable --> Compact.
Sequentially compact --> Limit-point compact.
Limit point compact, first-countable and $T_1$ --> Sequentially compact.
but I'm absolutely ignorant about the other cases. Has this been systematically studied somewhere? If so, where?
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