AspectJ is a, for lack of a better word, "pure" Aspect framework. The criteria being that it can be used widely in all sorts of circumstances. Any aspect, on any class, at any time.
That said, the aspect technique of intercepting and wrapping method calls, has found its way pervasively in Java. However, these trend towards specialization of the generic aspect concept for specific purposes.
A very early "aspect" was done with the early EJB capabilities. This entailed the use of XML files to augment classes and interfaces, so that the container could create proxy objects that would wrap method invocations in to transaction contexts. This wrapping of the methods is an aspect concept, but the early EJB spec only offered the capability on the very specific use case of transaction management.
The arrival of annotations with Java 1.5 opened up this augmentation concept of aspect oriented programming. It's not that you need annotations to enable this, rather it just makes the frameworks much easier to use, as the annotations eliminate the external meta data configuration (using, perhaps, XML files).
So, now, many Java systems use concepts from aspect oriented programming, typically through reflection and annotations, to implement certain capabilities. Whether this is instance injection, around methods, validation, etc.
The key component to it all is some mechanism to intercept the method call. AspectJ worked by changing the destination class on the fly, rather than interjecting a middle man. EJB works by creating proxies on interfaces (something you can do out of the box in Java), and then when a program asks the container for a instance, it provides a proxy backed by the actual instance.
So, to enable "generic" AOP, everywhere, all the time, you certainly need something wide ranging like AspectJ. But to get much of the benefits of it, you don't need to go that far. A simple Factory class and an Interface can do the job readily.