Here's the consideration:
1) return a copy
string. Then the documentation is simple ("returns the current value of...") and the function is slow (I doubt there are many circumstances where a compiler is smart enough to omit the copy, even where the return value is used only within a single expression. It's theoretically possible for the compiler to recognize
string as a value type with side-effect-free copies, and also to prove that the referand cannot change during the period in which the caller uses the copy, and therefore use a reference instead. But will it do all that?).
2) return a reference
const string&. Then the documentation is complex, ("returns a reference to a
string object containing the current value of... This reference remains valid for the following time... It continues to contain the same value for the following subset of that time..."). The function is fast if the caller doesn't need a copy. The implementation of the class is pretty much constrained to always in future store that string as a
string data member, because it will not otherwise have anything to return with suitable lifetime.
Aliasing is potentially fast (if it avoids copies) but complex (since referands can change or disappear), so functions that return references are potentially fast but complex. Furthermore, (1) is a "getter that returns a property of the object", but (2) is a "getter that returns a private member of the object". So if getters are evil then (2) is more evil than (1).
I would generally return the reference if the getter is essentially there as a hack for other tightly-coupled classes to get at the data, or if the class has very obvious semantics for when it will change, for example "never during the lifetime of the object", or if the string is expected to be so huge that it's reasonable to expose it by reference simply because taking a copy of it should be rare and so callers will be expecting view behavior rather than value behavior. I'd probably return the value if the interface is supposed to be compatible-forever, just to be safe, unless the class I'm writing is explicitly designed as "a thing that holds a big string and does X for you whilst still letting you see the string".
Immutable garbage-collected strings make this problem go away, which is probably one of the reasons they're attractive to designers of higher-level languages.