https://mega.nz/file/YcJTnA4Z#9FMH_1a2xF4xOUUVUi6Yrm6EnO__4CG8dqUYR-yV-e0Building upon an idea I had about photofabrication using two intersecting counter-rotating helical beams, I have reasoned that we could use the same beams to guide protons to more precise positions to enable protons to be injected to specific points within a three-dimensional processing substrate so that the semiconductors can be dispensed with entirely. When I published about using hydrogen in June, I didn't specify just how we would make this approach scalable. Hydrogen nanowires work but are not scalable so there's little research money going into it.
As it turns out, you actually need an enclosed structure from the get-go because it needs to be pressurized to create the Coulomb-force gradient necessary to transistorize hydrogen. With this, you have a method for putting the protons in place for both the transistors and the wires and the three-dimensional structure allows for not only packing more transistors into a single unit and not only for a process which eliminates the need for integrating multiple two-dimensional layers, but allows for the necessary hyperbaric pressurization.
The protons can be streamed down the center of the helical beam and the beams can slowly sweep along the desired paths to lay a wire in a short period of time rather than one proton at a time as in prior experiments with conventional proton doping without proton guidance of any sort. Even the NSA has nothing like this.