UPDATE: This question was the subject of my blog in July 2013. Thanks for the great question!
J.Kommer's answer is correct (and good on them for doing what was evidently a lot of spec digging!) but I thought I'd add a little historical perspective.
When Mads and I were sorting out the exact wording of various parts of the specification for C# 3.0 we realized that the "null type" was bizarre. It is a "type" with only one value. It is a "type" that Reflection knows nothing about. It is a "type" that doesn't have a name, that GetType never returns, that you can't specify as the type of a local variable or field or anything. In short, it really is a "type" that is there only to make the type system "complete", so that every compile-time expression has a type.
Except that C# already had expressions that had no type: method groups in C# 1.0, anonymous methods in C# 2.0 and lambdas in C# 3.0 all have no type. If all those things can have no type, we realized that "null" need not have a type either. Therefore we removed references to the useless "null type" in C# 3.0.
As an implementation detail, the Microsoft implementations of C# 1.0 through 5.0 all do have an internal object to represent the "null type". They also have objects to represent the non-existing types of lambdas, anonymous methods and method groups. This implementation choice has a number of pros and cons. On the pro side, the compiler can ask for the type of any expression and get an answer. On the con side, it means that sometimes bugs in the type analysis that really ought to have crashed the compiler instead cause semantic changes in programs. My favourite example of that is that it is possible in C# 2.0 to use the illegal expression "null ?? null"; due to a bug the compiler fails to flag it as an erroneous usage of the
?? operator, and goes on to infer that the type of this expression is "the null type", even though that is not a null literal. That then goes on to cause many other downstream bugs as the type analyzer tries to make sense of the type.
In Roslyn we will probably not use this strategy; rather, we'll simply bake into the compiler implementation that some expressions have no type.