Is there a special name for a morphism $f : X \to Y$ in a category which doesn't factor through any proper subobject of $Y$? In other words, we have $\mathrm{im}(f)=Y$ for the image of $f$.
This property is precisely what makes an epimorphism an extremal epimorphism. But the morphism $f$ is not necessarily an epimorphism. You can prove this when the category has equalizers, but not in general.
Ideas for a name in case no name exists in the literature (this is not part of my question since it is opinion-based, but I wanted to share these thoughts nevertheless to provide some context and examples):
- extremal morphism. Sufficient for my needs but is confusing when applied to extremal monomorphisms. We cannot change history but coextremal epimorphism would actually be a better name for what we now call extremal epimorphism, and then coextremal morphism would probably be the best answer.
- surjective morphism. This is because in every algebraic category it is precisely a surjective homomorphism. Also the equation $\mathrm{im}(f)=Y$ looks very much like surjectivity. On the other hand, one has to be careful with non-algebraic categories, see below.
- dense morphism. This fits better to the example of the category of complete metric spaces, since the categorical image is the closure of the set-theoretical image.
The suggestion in the title (extremal non-epimorphism) is not really serious, it is not usable.
