On Feb 10, 2014, at 8:30 AM, Axil Axil wrote:
Thanks Ed
My concept of the LENR reaction is a passive one. Yours is a more
active one.
Axil, I would say your concept uses one aspect of a theoretical
concept while my concept involves the entire LENR process.
According to my current way of thinking, dipole vibration maintains
the separation of electron and proton in hydrogen.
This happens in a chemical system, not in plasma where your concept
would apply. Any separation of charge must take into account the
surrounding electrons and atoms. A "vibration" has to take place in a
local region having no connection to the chemical structure. That is
the role of the Hydroton. Where is your "hydroton"?
These separated electrons are then sequestered and redirected into
the NAE (aka soliton) by topological discontinuity in the lattice
and become part of the polariton ensemble inside the NAE.
I have no idea what this means and how it can happen. We know
electrons can be separated from the atoms and can result in an
electric current when voltage is applied. Where is the applied
voltage in your case? What drives the charge separation, which
requires energy? Where does the voltage gradient come from that is
required to move the electrons? Without such answers, this
description is just hand-waving.
The naked protons are then acted upon by the EMF based charge
screening effects of the NAE. With their coulomb repulsion
completely removed, these protons become attractive to each other
and pair up based on their opposing spins to form cooper pairs.
Cooper pairs are known to form only at low temperature because they
are very unstable. In addition, you are applying a concept used to
describe electrons in superconductors to protons. What justification
do you have for such a structure to form between protons at room
temperature and above? How does a copper pair of p differ from H2?
The next step is a group fusion process where these multiple cooper
pairs of protons fuse with a high Z element in a group fusion
process in a zone of almost complete charge screening.
This makes no sense. I have no idea what you are describing here.
For example, 8 protons (4 cooper pairs) might fuse with a nickel
atom to produce multiple light elements which might include multiple
helium atoms.
I suggest you go the next step and calculate the elements formed,
their decay modes, and whether the reaction is exothermic. And then
see if the consequence is consistent with what is observed. Simply
making unsupported imagined statements without going the next step is
not very useful.
The charge screening comes from the NAE. The ions that are to be
fused are all very close by the soliton and located in the solid
boundaries of the lattice defect. The very strong magnetic field
coming from the NAE is the coulomb barrier screening field. This
magnetic field shines brightly on the solid boundaries of the NAE
where complete screening of the coulomb barrier occurs.
I have no idea how a magnetic field "shines" on a boundary. This
combination of words makes no sense to me.
Ed Storms
On Mon, Feb 10, 2014 at 9:25 AM, Edmund Storms
<stor...@ix.netcom.com> wrote:
Axil, I hope you realize the Hydroton, which I propose allows the
fusion reaction to take place and dissipates the energy, involves
resonance of electrons coupled to hydrogen atoms. I'm describing the
structure in which the polariton would operate. So far you have not
supplied this essential feature in your concept. No matter which
mechanism is proposed, it MUST operate in a collection of hydrogen
nuclei that form by normal chemical processes. That structure is the
Hydroton. Once this structure is identified, several consequences
result and many behaviors can be explained. You might consider how
your idea relates the entire mechanism I propose.
Ed Storms
On Feb 10, 2014, at 5:50 AM, Axil Axil wrote:
Fusion by Pseudo-Particles Part 1 Past, Present and Future
http://www.egely.hu/letoltes/Fusion-by-Pseudo-Particles-Part1.pdf
I have come across a fellow traveler who can express the truth
about the central role of the polariton in LENR and understands why
this fact is so.
