Well, now ... if you put it this way ... Superatoms it is!!!!
Now, the question is. How does one create a Superatom? Let's have some
SuperAtoms so that we can all Not Worry and Be Happy. :-)
Jojo
PS. Don't take offense, my friend. I'm just letting off some steam from
cranial overheating trying to solve this LENR enigma.
----- Original Message -----
From: Axil Axil
To: vortex-l@eskimo.com
Sent: Sunday, August 26, 2012 12:48 PM
Subject: Re: [Vo]:Superatoms
Ed Storms said in “An Approach to Explaining Cold Fusion:”
"Many explanations have been proposed that are based on imagined ways energy
could accumulate in sufficient amount in the chemical lattice to overcome the
Coulomb barrier, either directly or as result of neutron formation. These
processes also occasionally involve accumulation of extra electrons between the
hydrogen nuclei as another way to hide the barrier. These suggestions ignore
the severe limitations a chemical lattice imposes on energy accumulation and
electron structure. Some proposed processes even ignore obvious conflicts with
what has been observed. Consequently, none have been useful in directing future
research or have achieved universal acceptance."
The goal is to find ways to accumulate and concentrate a sufficient amount of
charge to overcome the Coulomb barrier.
The subjects you listed are a variety of ways to accumulate charge and many
of them are different names for the same thing; different areas of science use
different names for the same thing. I am trying to get all these names straight
in terms of the nuance that each of these names imply.
This is how these things are all related: Rydberg matter is a kind of
superatom. Cesium thermionic catalysts are Rydberg matter and also a superatom.
Some superatoms are string-like and therefore demonstrate Quantum Charge
Accumulation as a 1D material. Charge screening in 1D nanotubes is a way to
duplicate string like superatoms.
An example of a stringlike superconductive superatom is LeClair’s water
molecule.
A crack in palladium is another way to form a one dimensional topological
superconductor just like a superatom string like cluster.
Bose-Einstein condensate superatoms are strong charge projectors.
Papp’s Noble pixie dust is a superatom (aka Rydberg matter).
There are many different flavors of LENR and each is a variation off the same
theme. When atoms are configured in just the right way, a large amount of
charge can be accumulated and concentrated which can lower the coulomb barrier.
The more tools that we have in our engineering tool bag, the easier it is to
setup a LENR system as well as to explain how current LENR systems work.
Cheers: Axil
On Sat, Aug 25, 2012 at 11:33 PM, Jojo Jaro <jth...@hotmail.com> wrote:
Has your opinion changed again?
First, there's Cesium thermionic catalysts, then Dipole structures in 2D
materials like Rydberg matter; then Quantum Charge Accumulation in 1D
materials, then charge screening in 1D nanotubes, then Field emissions on SWNT
rugs. then Papper Noble pixie dust, then Nickel Fission and now SuperAtoms. At
the rate you're going, by next week, you'll be endorsing gremlims and then
chameleons shortly after that. Hey, why not. Stewart would say your SuperAtom
is just the right candidate to collapse into a gremlim :-)
Maybe I'm just uninformed about your theory but it looks like you can't
make up your mind as to what your theory is. Has your opinion changed that
much in the last month?
But, keep it coming. Looks like we're all struggling to make sense of all
this LENR magic :-)
Is it possible that we're all crazy and Bob Parks is right.
Jojo
----- Original Message -----
From: Axil Axil
To: vortex-l
Sent: Sunday, August 26, 2012 11:05 AM
Subject: [Vo]:Superatoms
Superatoms are clusters of atoms that seem to exhibit some of the
properties of elemental atoms.
IMHO, superatoms are fundamental to LENR. These clusters of atoms provide
a way to substitute and amplify the effects of a particular LENR responsive
element. The amplification of LENR effects all depends in the way that the
electrons behaves in these clusters.
As an example, Superatom clusters could serve as building blocks for new
materials that are cheaper and more effective than materials currently being
used in LENR.
Read more at:
http://phys.org/news199634925.html#jCp
Electron configuration is the key to mimicking phenomenon. It has be
shown that certain combinations of elemental atoms have electron configurations
that mimic those of other elements. The researchers also showed that the atoms
that have been identified so far in these mimicry events can be predicted
simply by looking at the periodic table.
"We started working with titanium monoxide (TiO) and much to our surprise
we saw the TiO was isoelectronic (having very similar electronic
configurations) with nickel," Castleman said. "This amazed us because we
started seeing behaviors where TiO looked like nickel. We thought this must
just be a chance happening."
As an example, Titanium monoxide has a melting point of 1750 °C. In the
Rossi reactor, TiO might replace nickel to provide an even higher operating
temperature.
I believe that clusters of cesium atoms provide the amplification of
thermionic effects seen in the Rossi reactor. Acting like a single superatom.
some 10,000 individual atoms combine together to amply the positive charge
accumulation to produce a High Density Charge Cluster (HDCC).
In deuterium palladium LENR, superatom substitution is also possible.
Zirconium oxide is isoelectronic with palladium, and tungsten carbide
which is also isoelectronic with palladium. This is why Zirconium oxide and
tungsten carbide will work just as well as palladium in a D/Pd system.
Superatoms mimicking other elements can be predicted by simple
arithmetic. Titanium, for example, has four outer-shell electrons, atomic
oxygen has six, so move six elements to the right of titanium and you're at
nickel, whose 10 outer-shell electrons make it isoelectronic with titanium
oxide.
So why use a different element if the actual element is available? First,
the element mimic might be less expensive, as in the case of palladium, which,
at $100 a gram. At two cents a gram, zirconium oxide would be a worthy
substitute.
Cheers: Axil
