On Fri, Dec 11, 2020 at 7:57 AM Jones Beene <[email protected]> wrote:
> Sean, > > REF: https://spaz.org/~magi/ > > ... hope this is not off-topic > > Have you tried setting up a pair of identical nested tubes - one as > transmitter and one as receiver, separated by significant distance - in > order to see if there is unusual efficiency in transmitting power? > > No, I only have one unit so far. I will say, you are not the first person who has suggested this. And I think it is a worth while experiment to perform. > The lore of "longitudinal/scalar waves" seems strangely applicable to this > design. Also - how does the resonant frequency scale with smaller and > smaller geometry? > Tell me more about this "Longitudinal Wave"? Can you show me equations, or point me to papers? Last night, out of the blue, an engineer started telling me about this same thing. He showed me a pair of equations from his paper, but asked me not to publish them because they are export restricted. The frequencies of resonance I measured are related to the physical dimensions of the structure. So a smaller geometry would raise the frequency. > It would be a huge challenge to reduce the structure to micro or nano > geometry for lithography but maybe not impossible. Heck perhaps the > operative mechanism can itself be fractalized > In theory you can scale it to any size, as long as you keep the ratios the same. Yeah, may be you could make one with photo-lithography.
