The answer (Pram's) marked as correct isn't technically a deadlock as others have suggested. Its just blocked.
I would suggest in Java, you can lean on Java's definition (which is consistent with the two thread idea). The ultimate judge then can be the JVM if it detects the deadlock itself. So, in Pram's example, the thread would show something like the following if it was a geniune deadlock.
waiting to lock Monitor of com.google.code.tempusfugit.concurrency.DeadlockDetectorTest$Cat@ce4a8a
which is held by "Kidnapper-Thread-0"
waiting to lock Monitor of com.google.code.tempusfugit.concurrency.DeadlockDetectorTest$Cash@7fc8b2
which is held by "Negotiator-Thread-1"
This deadlock detection has been available for intrinsic locks since 1.5 and
Lock based cyclic deadlocks since 1.6.
A continuously blocked resource, or at least something that is waiting for something that will never happen is called a livelock. Similar problems where processes outside the VM (for example) databases deadlocking are entirely possible but I'd argue not appropriate for the question.
I'd be interested in a write up of how the interviewer claims its possible...
In answer to your original question, it takes two to tango and I'd suggest Pram's answer shouldn't be marked as correct because its not! ;) The RMI thread which calls back can cause blocking but it runs on a different thread (managed by the RMI server) than that of main. Two threads are involved even if the main thread didn't explicitly set another one up. There is no deadlock as witnessed by the lack of the detection in the thread dump (or if you click 'detect deadlock' in jconsole), it'd be more accurately described as a livelock.
Having said all that, any discussion along the lines of each of these answers would be enough to satisfy me as an interviewer.