The coupling of fermions via spin with nucleons to allow mass conversion may
require many coherent ferimons to improve the odds that spin, angular
momentum charge and mass can be conserved. A special nano structure with a
varying magnetic field and resonant temperature conditions (lattice
vibrations) may be what is necessary.
At least that is what seems generally involved in reported test parameters
in Pd and Ni systems.
The LENR reaction parameters are not the same as appear to control particles
with significant kinetic energy and linear momentum where mass is changed to
energy. IMHO the coherent nano systems must couple in a different manner
than occurs in particle collision reactions. Free high energy entities do
not seem to happen very often because the multi-body system is not
configured properly most of the time.
Bob Cook
ppen in
-----Original Message-----
From: Jones Beene
Sent: Friday, July 17, 2015 6:44 AM
To: [email protected]
Subject: RE: [Vo]:Re: Rossi's theory of the LENR reaction
Sounds a bit like a new type of fermionm
http://spectrum.ieee.org/tech-talk/semiconductors/materials/exotic-particles
-could-lead-to-faster-electronics
-----Original Message-----
From: [email protected]
In reply to Eric Walker's message of Thu, 16 Jul 2015 12:58:49 -0500:
Hi,
[snip]
Now I wonder whether it would be possible to conserve spin with the
appropriate selection of electrons:
-1/2 + 1/2 + -1/2 + 1/2 + ... + 1/2 + 1/2 = 1
Each electron will in turn emit a photon, which is again angular
momentum n=1, so I'm not sure how that factors in as a consideration.
It seems improbable to me that there would be two [dd]* resonances with
antiparallel spin underway at the same time.
This is an interesting idea, but again the question arises, why doesn't this
happen with normal decay reactions?
Regards,
Robin van Spaandonk
http://rvanspaa.freehostia.com/project.html
