When discussing mathematical objects, I think that "ragged" is probably used as a modifier to "array" specifically to mean one that has mismatched secondary dimensions. So that's the first meaning rather than the second. Consider where the word is taken from - we don't say that a brand new handkerchief "is ragged, because it has the potential to fray around the edges, but it hasn't frayed yet". It's not ragged at all. So if we were to call a specific array "ragged", I would expect that to mean "not straight".
However, there will be some contexts in which it's worth defining "ragged array" to mean a "potentially-ragged array" rather than one that actually does have mismatches. For example, if you were going to write a "RaggedArray" class, you would not design in a class invariant that there is guaranteed to be a mismatched size somewhere, and be sure to throw an exception if someone tries to create one with all sizes equal. That would be absurd, despite that fact that you're going to call instances of this class "ragged arrays". So in that context, an array with equal sizes in all elements is a special case of a "ragged array". That's the second meaning rather than the first.
Of course, a C or C++ multi-dimensional array still would not be an instance of this class, but it might satisfy at least the read-only part of some generic interface referred to as "RaggedArray". It's basically a shortcut, that even though we know "ragged" means "having a size mismatch", for most purposes you simply can't be bothered to call that class or generic interface "PotentiallyRaggedArray" just to make clear that you won't enforce the constraint that there must be one.
There's a difference between whether a particular instance of a type has a specific property, and whether the type allows instances of it to have that property, and we frequently ignore that difference when we say that an instance of type X "is an X". Instances of type X potentially have the property, this instance doesn't have it, so this instance in fact does not potentially have the property either. Your two meanings of "ragged array" can be seen as an example of that difference. See the E-Prime crowd, and also the philosophy of Wittgenstein, for the kinds of confusion we create when we say that one thing "is" another, different thing. An instance "is not" a type, and a concrete example does not have the same potential properties as whatever it's an example of.
To specifically answer your question, I doubt that there is a universally-accepted preference for one meaning over the other in the CS literature. It's one of those terms that you just have to define for your own purposes when you introduce it to a given work (an academic paper, the documentation of a particular library, etc). If I could find two papers, one using each, then I'd have proved it, but I can't be bothered with that ;-)