My understanding has always been, regardless of C++ or C# or Java, that when we use the
new keyword to create an object it allocates memory on the heap.
Your understanding has been incorrect:
new may work differently in different programming languages, even when these languages are superficially alike. Don't let the similar syntax of C#, C++, and Java mislead you!
The terms "heap" and "stack" (as they are understood in the context of internal memory management) are simply not relevant to all programming languages. Arguably, these two concepts are more often implementation details than that they are part of a programming language's official specification.
(IIRC, this is true for at least C# and C++. I don't know about Java.)
The fact that they are such widespread implementation details doesn't imply that you should rely on that distinction, nor that you should even know about it! (However, I admit that I usually find it beneficial to know "how things work" internally.)
I would suggest that you stop worrying too much about these concepts. The important thing that you need to get right is to understand a language's semantics; e.g., for C# or any other .NET language, the difference in reference and value type semantics.
Example: What the C# specification says about operator
Note how the following part of the C# specification published by ECMA (4th edition) does not mention any "stack" or "heap":
14.5.10 The new operator
The new operator is used to create new instances of types. […]
The new operator implies creation of an instance of a type, but does not necessarily imply dynamic allocation of memory. In particular, instances of value types require no additional memory beyond the variables in which they reside, and no dynamic allocations occur when new is used to create instances of value types.
Instead, it talks of "dynamic allocation of memory", but that is not the same thing: You could dynamically allocate memory on a stack, on the heap, or anywhere else (e.g. on a hard disk drive) for that matter.
What it does say, however, is that instances of value types are stored in-place, which is exactly what value type semantics are all about: Value type instances get copied during an assignment, while reference type instances are referenced / "aliased". That is the important thing to understand, not the "heap" or the "stack"!