on some architectures (os, compiler, stl implementation) the code produces "4 4" as expected. Try it here.
The problem is that the code relies on undefined behaviour, since it uses a pointer returned by an object which has been destroyed.
When you write
b = string(1,c).c_str();
you are creating a temporary object and asking it for a pointer to an array of characters. You assign this pointer to b and then the temporary object (which owns the memory b now points to) is destroyed. Assuming the library is "sane", such memory is going to be freed during the string destruction. Hence accessing the memory via the pointer b is undefined behaviour.
Of course you should not rely on undefined behaviour, even if it "works" on some occasions.