Programming is the art of finding good compromises. Dynamically allocated memory can have some place of course, and I can even think to problems where a good compromise between code complexity and efficiency is obtained using
std::vector does a great job of hiding most needs of dynamically allocated arrays, and managed pointers are many times just a perfect solution for dynamically allocated single instances. This means that it's just not so common finding cases where an unmanaged dynamically allocated container (or dynamically allocated whatever, actually) is the best compromise in C++.
This in my opinion doesn't make dynamic allocation "bad", but just "suspect" if you see it in code, because there's an high probability that better solutions could be possile.
In your case for example I see no reason for using dynamic allocation; just making the function returning an std::vector would be efficient and safe. With any decent compiler Return Value Optimization will be used when assigning to a newly declared vector, and if you need to assign the result to an existing vector you can still do something like:
that will not do any copying of the data but just some pointer twiddling (note that you cannot use the apparently more natural
myvector.swap(FindPoints()) because of a C++ rule that is sometimes annoying that forbids passing temporaries as non-const references).
In my experience the biggest source of needs of dynamically allocated objects are complex data structures where the same instance can be reached using multiple access paths (e.g. instances are at the same time both in a doubly linked list and indexed by a map). In the standard library containers are always the only owner of the contained objects (C++ is a copy semantic language) so it may be difficult to implement those solutions efficiently without the pointer and dynamic allocation concept.
Often you can stil reasonable-enough compromises that just use standard containers however (may be paying some extra O(log N) lookups that you could have avoided) and that, considering the much simpler code, can be IMO the best compromise in most cases.