There are several approaches that depend on specifics of your task.
If you need to work with file system (i.e. via filesystem API functions and classes), and you want it fast, then (as I suggested in reply to your previous question) you'd need to create a RAMDisk driver. Windows Driver Kit includes a sample driver, which (coincidence?) has the name "RamDisk". Driver development, though, is tricky, and if something goes wrong with the sample or you need to extend it, you would need to dig deep into kernel-mode development (or hire someone to do the job). Why kernel mode? Cause as you could see with Dokan, switching back to user mode to store the data causes major slowdown.
If all you need is a handy management of bunch of files in memory using Stream class (with possibility to flush all of this to the disk), then you can make use of one of virtual file systems. Our SolFS (Application Edition) is one of such products that you can use (I can also remember CodeBase File System, but they don't seem to provide an evaluation version). SolFS seems to fit your task nicely so if you think so too, you can contact me privately (see my profile) for assistance.
To answer your questions:
No, memory-mapped files (MMF) are literally files on the disk (including a virtual disk if you have one), which can be accessed not via filesystem API but directly using in-memory operations. MMFs tend to be faster for most file operations, that's why they are frequently mentioned.
Our Callback File System or CallbackDisk products (see virtual storage line) are an alternative, however, as I mentioned in the first paragraph, they won't solve your problem due to user-mode context switch.
I see no obstacles for the driver to have a copy in memory and perform writes to disk asynchronously when needed. But this will require modifying sample RAMDisk driver (and this involves quite a lot of kernel-mode programming).
With SolFS or other virtual file system you can have a copy of the storage on the disk as well. In case of virtual file system it might appear that working with container file on the disk will give you satisfactory results (as virtual file system usually has a memory cache) and you won't need to keep in-memory copy at all.