I think the distinction between physical and logical is a bit blurred in this case. Since HotSpot will JIT your code to native code at will, and the result may depend on a number of optimizations, one could argue that both views are in a way correct.
Or, one could say that the stack is physical, but what goes onto the stack is variable and not always simple to derive from the Java code being executed. For example, function calls may be inlined or not, so a call to your function from one place may need extra space on the stack and a call to the same function from another place or at another time may not need it or need less (or more). This is called deep inlining in this document. If you push references onto the stack, their size may also vary (there are tricks which make it possible to sometimes squeeze references into 32 bits even in a 64-bit JVM). Since the JIT compiler works asynchronously and makes some decisions based on profiling data from code execution, the same code may have varying performance and probably also stack usage during different runs.
Garbage Collector, JIT compiler etc. run in separate threads, so they use their own call stacks, if that's what you mean by "HotSpot overhead".