Abd ul-Rahman Lomax wrote:
It's true, I've never seen a CR-39 chip as used in this field,
personally, but CR-39, as a material, can be very clear, optically
clear, it's used for lenses, after all . . .
Pretty sure the samples Pam Boss showed me were beige.
Cold fusion heat appears in small hot spots much hotter than the
surroundings. See:
http://lenr-canr.org/Collections/USNavy.htm
http://lenr-canr.org/Collections/SzpakIR.wmv
That video is spectacular. It might mean nothing, but I doubt that
it means nothing. Focused on the back of the cathode? The video
raises more questions than are answered. What's the magnification?
What would be seen in the visible, with a microscope?
Possibly damage. Probably nothing.
If that's the back of the cathode, wouldn't the heat be diffuse there?
Yes, but not as diffuse as it would be seen through water.
The configuration is shown in the slides referenced on the same page:
http://lenr-canr.org/acrobat/SzpakSpolarizedda.pdf
A someone similar technique has been used a few times to detect
x-rays from cold fusion reactions. Palladium is sputtered onto
beryllium, which is transparent to x-rays. The beryllium is then used
as one wall to construct a cell (like a box). Electrolysis is
performed with the palladium as cathode. Since it has only side
exposed to the electrolyte and anode, it does not work well. However,
an x-ray detector can be placed right next the outside wall of the beryllium.
- Jed
