Factually the best update (2009) about sono fusion is given in ::
https://www.lenr-canr.org/acrobat/StringhamRwhenbubble.pdf
J.W.
On 03.01.2024 00:37, Robin wrote:
Hi,
You might take a look at the work of Dr. Randell Mills
(http://brilliantlightpower.com/).
A severely shrunken H2 molecule would provide the "constraint" on particle
location that you are looking for.
Furthermore, the shrunken electrons of the Hydrino molecule can carry away
excess energy as fast particles, which then
ends up as heat in the fluid. Also, if only one proton (deuteron) of the
molecule fuses with the target nucleus, the
other proton may carry away the reaction energy.
You may also want to take the following into account:-
1) Water also contains some D. Reactions involving a shrunken HD molecule (or
individual shrunken atoms) may avoid the
need for weak force reactions. You could see if this is applicable by repeating
your experiments with water enriched
with heavy water. I wouldn't try using pure heavy water at first, as you
wouldn't want the experiment to blow up in your
face.
2) The temperatures achieved in a collapsing cavitation bubble, are sufficient
to create atomic hydrogen from water, and
according to Mills, a water molecule can act as a catalyst for the shrinkage
reaction.
3) They say there is nothing new under the Sun, and this isn't the first time
that a cavitation based device has been
reported to produce excess heat. See https://www.hydrodynamics.com/. This was
reported on vortex-l decades ago, and in
fact the group was initially set up to discuss this device.
4) You may also want to check out https://lenr-canr.org/ for many related
papers.
Regards,
Robin van Spaandonk <mixent...@aussiebroadband.com.au>
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Jürg Wyttenbach
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