One of the most significant clues to the nature of the LENR reaction is the
"decay" of the proton that is seen through the action of ultra dense
hydrogen as produced by Holmlid.
Proton decay points to the formation of the postulated Weak Force X
"Intermediate Vector Bosons" ("IVBs"). This particle is the big brother of
the Z IVB that is responsible for Weak force mediated decays.
If we want to understand the LENR reaction, we must first understand where
the Z IVB comes from. This particle is produced by the Higgs field. The
Higgs field makes the weak force work and therefore also the LENR reaction.
The IVB family is a "Goldstone boson" that is created by the Higgs field.
This origen of the IVB family is why the LENR reaction is a multi leveled
reaction that correspond to the IVB family member level: that is either the
Z or the X IVB.
This multi leveled particle structure is part of grand unification theory.
The low level LENR reaction is actioned by the Z IVB. It is a weak force
reaction that is restricted to the stabilization of radioactive isotopes.
Weak reactors like the latest Mizuno reactor may only produce the weak LENR
reaction where no transmutation of elements occurs and therefore has a very
low COP. Its energy only comes from Hawking radiation only.
The high intensity version of the LENR reaction is actioned by the X IVB.
It will produce decay of the proton which leads to transmutation of
elements and energy produced by E=MC^2.
The X IVB is a particle that is derived from an extra strong false Higgs
field that exists in the EVO produced by Ultra Dense Matter as seen in the
Holmlid, Rossi and LION reactors. This strong reaction gets its energy from
mass to energy conversion and has a very high COP.
For more background, See
THE "W" INTERMEDIATE VECTOR BOSON AND THE WEAK FORCE MECHANISM
[url]http://www.johnagowan.org/weakforce.html[/url]
Also see
Physics of the Higgs Mechanism and Particle Mass - Part 4 (of 6)
[url]
https://www.youtube.com/watch?v=hFnavyFRgT0https://www.youtube.com/watch?v=hFnavyFRgT0[/url]
On Tue, Feb 4, 2020 at 9:18 AM Jones Beene <jone...@pacbell.net> wrote:
> I was hoping that this new discovery would show much tighter hydrogen
> spacing - in keeping with the various theories for dense hydrogen.
>
> However, the spacing is far from pico and not extremely compact at all,
> and therefore this may result may not be related to LENR.
>
> Fortunately, there is a lot of work going on in superhydrides - and this
> work aligns with the long-held suspicion that a transient form of
> superconductivity at greater than room temperature - and the occurrence of
> LENR are somehow related.
>
> Here is a related paper on another superhydride with a massive 9:1 atomic
> ratio. Ratios of nine or ten to one are possible with high pressure.
>
> https://phys.org/news/2019-10-impossible-superconductor.html
>
> It is only a matter of time until a breakthrough occurs in this field and
> the extreme pressures now being used, become superfluous.
>
>
>
> Terry Blanton wrote:
>
> *An international team of researchers has discovered the hydrogen atoms in
> a metal hydride material are much more tightly spaced than had been
> predicted for decades — a feature that could possibly facilitate
> superconductivity at or near room temperature and pressure.*
>
>
> https://scitechdaily.com/room-temperature-superconductor-breakthrough-at-oak-ridge-national-laboratory/
>
>
