I would say you are both missing the boat, and at the same time on the right track.... let me explain.
DDD is the best way we know as an industry to codify the reality of a business problem into a solution domain that we can map to a computer program. DDD is a methodology to abstract a real domain into something more manageable and relevant for us, these are good things.
The problem you are facing is in the implementation, the prevailing implementation choice for the last 20-30 years has been object orientation (OO), the core mechanism of passing objects around in OO is by passing references to objects in the same memory space as yourself. So the problems you are facing about large object graphs where never a real problem.
Enter Service orientation (SO) which flips things around, you are not longer passing references to objects, but exchanging messages between services. The size of the message now becomes a concern.
If we accept that the paradigm of implementation has changed, we need to accept that some of our OO best practices/patterns either no longer apply or need revision.
If you want to get into the SO way of thinking, you need to, I believe (my opinion here), let go of the idea of a rich domain slightly. I term this new concept a Service-Orientated-Domain (SO-Domain).
In a SO-Domain the state of the domain and the behavior of the domain is split between the messages you pass and the services you use.
So the state or the attributes of the teacher are part of the TeacherDTO, but the behavioral is part of the teacher service.
In OO terms this is an anemic domain, but in a SO sense it is not such a bad thing as this gives you some amazing flexibility, as you no longer have one big thing, the state can be used in multiple contexts.
You still have a valid domain, it is just partitioned differentially, messages hold state and services hold behavior.
The rest comes down to service interface design, so to get the class for a teacher you could have things like List RetrieveTeacherClasses(teacherIdentifier). To add a student AddStudentToClass(Student, classId).
There are a million different way to do this you will find the one that works for you, but as a general rule you should follow a state-aware paradigm, this means the message will send any state the service needs to be aware off, this enables the service to be stateless, and stateless service mean scalability.
Pratik mentions performance, true performance gains on a system wide scale are not made by fussing over the size of object graphs, but as the ability of every service in the solution to scale independently.
Here are some links to more on these ideas
Building a SOA
SOA Design Pattern
Achieving integrity in a SOA
Why your SOA should be like a VW Beetle
SOA explained for your boss
WCF Service Performance