Sorry Jones, I have no way to detect UV spectral lines with this setup. Even
though the 1500 l/mm diffraction grating I used can pass UV wavelenghts down to
about 255 nm it's unlikely they would get through the soda-lime glass jar and
the microwave oven door. 27.2 eV and 13.6 eV are way into the vacuum
ultraviolet and would be blocked by almost any common substances.
Some of the sparking looks a little too far from the surface of the glass
container to be contaminated by it and there's a lot of sodium spectrum being
displayed. So something strange is going on, I think.
On Friday, June 11, 2021, 10:30:56 PM GMT+1, Jones Beene
<jone...@pacbell.net> wrote:
Most interesting, Michael. It would be even more so (to Mills' investors :-)
... if there had been some of the Mills' UV lines as predicted - 27.2 eV , 13.6
eV and so on.
Did you see any UV lines at all?
Michael Foster wrote:
I tried this and it looks really kewl indeed. The potassium chloride I used
was pure enough that if you do a simple flame test, you don't get any of that
yellow-orange sodium color. I watched the sparking with a 1500 lpm diffraction
grating and the double D lines of sodium are way too bright to be accounted for
from the potassium chloride. So it's either transmutation (unlikely), or the
energy produced by the sparking is enough to remove some sodium from the wall
of the glass container.
I didn't see any of the characteristic hydrino spectral lines :-)
