Axil—

You note: “When hydrogen atoms enter such a cavity, that atom becomes very 
energetic because such tight confinement produces extreme energy due to 
Heisenberg's uncertainty principle.”  What happens when two or more protons or 
deuterons are forced into a normal metallic lattice between the normal metal 
nucleons near  a surface where the zeta potential is large and a local magnetic 
field reduces the allowable positions of the H or D, increasing their momentum 
per the Heisenberg Uncertainty Principle (HUP).



What happens to angular momentum of the new lattice occupants  as momentum is 
increased.?  Is spin and angular momentum conserved, and can it (angular 
momentum) only change in  integral units of Planck”s reduced constant h?



Bob Cook










Sent from Mail<https://go.microsoft.com/fwlink/?LinkId=550986> for Windows 10

From: Axil Axil<mailto:janap...@gmail.com>
Sent: Saturday, February 24, 2018 11:54 AM
To: vortex-l<mailto:vortex-l@eskimo.com>
Cc: Andrew Meulenberg<mailto:mules...@gmail.com>; Jean-Luc 
Paillet<mailto:jean-luc.pail...@club-internet.fr>; Edmund 
Storms<mailto:stor...@ix.netcom.com>
Subject: Re: [Vo]:Metallic hydrogen does not exist


Being shorter than regular transition metal bonds and unbalanced, these 
microcavities that pit the surface of metal can be up to 10 times stronger than 
the bonds that connect a perfect crystalline lattice metal structure. In simple 
terms, the walls of a micro cavity on the surface of a metal is very strong.



When hydrogen atoms enter such a cavity, that atom becomes very energetic 
because such tight confinement produces extreme energy due to Heisenberg's 
uncertainty principle.



Ux Up >= ħ/2

(ħ is the reduced Planck constant h / (2π)).



Certain pairs of physical properties of a particle, known as complementary 
variables: position x and momentum p, can be known only to a fixed degree.



Because the hydrogen atom enters into a very confining space, its energy is 
driven to extremes by this quantum effect.



The metal bonds of the cavity absorb this energy of confinement and the atom's 
temperature eventually equilibrates with that of the lattice. As more hydrogen 
atoms enter the micro cavity, this new resident atom becomes even more 
energetic since it has even less space to occupy inside the cavity. This atom's 
energy will eventually be cooled by the lattice until its temperature 
eventually equilibrates with that of the lattice.



As more hydrogen atoms enter the cavity, the quantum effects pressure caused by 
the entrance of that new atom in its turn becomes so great that the pressure 
reaches a level sufficient to produce a crystal of ultra dense hydrogen(UDH).



The engineering takeaways from this quantum compression process:



There is an ideal size that a microcavity shoud be. That size should be just 
large enough to contain the finished UDH crystal and no bigger.



The LENR fuel preparation process that the sucessful LENR reactor builders 
undertake requires a long time for the production of ultra dense hydrogen to 
occur. If sufficient time for the long term absorption of hydrogen and 
associated quantum compression is not allowed, then the UDH will not reach the 
proper pressure for UDH formation to occur.



The hydrogen must be isotopically pure for UDH to form.



If lithium is used in conjunction with hydrogen, Ultra dense lithium hydride 
will form requiring just 1/4 of the quantum pressure. But both the lithium and 
hydrogen must be isotopically pure. Any isotope poisoning will kill the quantum 
compression process. That poisoned cavity will not form UDH from then on.



LENR poisons like nitrogen will kill UDH formation, but after UDH formation, 
poisoning is no longer a consideration.



The UDH will slowly exit the microcavities in which they were formed and 
activate the LENR reaction. The mimeographs of the me356 fuel shows that 
metallic hydrogen formation process and metallic hydrogen falls from the metal 
micro cavity containment cavities onto the carbon substrate to catalyze 
transmutation of carbon into metal.

·         
https://steemit.com/science/@m…l-and-nickel-foil-samples<https://steemit.com/science/@mfmp/ecco-sem-images-of-part-processed-fuel-and-nickel-foil-samples>



The link contains scanning electron microscope (SEM) images of the cavitaion 
prepared fuel used by the indian reactor (ECCO) kindly taken by me356.





There looks to be whole ecosystems in there and even beautiful fractal 
structures.



[0402.jpg]<https://www.lenr-forum.com/image-proxy/?key=47ce21d4383182a6626bd6172fe36ad52741b5c153f2e247b9e782799cee5668-aHR0cHM6Ly9zdGVlbWl0aW1hZ2VzLmNvbS8weDAvaHR0cHM6Ly9zdGVlbWl0aW1hZ2VzLmNvbS9EUW1WRTN0Qk5VSjZnY0R1eGJtQlBTUzZRb2F5QlhadGdrZkVobUFnc3NpbW80UC8wNDAyLmpwZw%3D%3D>



This mimeograph is very close to the ones that ME356 has already shown 
depicting the micrographs of his fuel and how that fuel produces transmutation 
over time. The ECCO reactor fuel also shows transmutation of carbon into a 
metal wire lattice of fractal patterns.



The light ovoid decoration patterns that contains the fractal metal 
transmutations looks like carbon isotope change from subatomic particle (muons, 
pions?) emissions from the process that is producing the metal nanowire tracks.



I beleive that the metallic hydrogen contained in the cavities of the fuel 
particles in which the metallic hydrogen was formed are released gradually onto 
the surface of the carbon sample tape and begin a transmutation process on that 
tape.










On Thu, Feb 22, 2018 at 7:36 AM, Brian Ahern 
<ahern_br...@msn.com<mailto:ahern_br...@msn.com>> wrote:

Hydrogen can become more and more dense, but its molecular orbital 
characteristics do not undergo a phase change.


From: alain.coetm...@gmail.com<mailto:alain.coetm...@gmail.com> 
<alain.coetm...@gmail.com<mailto:alain.coetm...@gmail.com>> on behalf of Alain 
Sepeda <alain.sep...@gmail.com<mailto:alain.sep...@gmail.com>>
Sent: Thursday, February 22, 2018 3:32 AM
To: Vortex List
Subject: Re: [Vo]:Cold fusion research reported at Oak Ridge

many things governement do are not done because it is good or bad for a supreme 
interest of the Nation, or of a big lobby, but because the worker want to avoid 
troubles, please his boss, get a promotion, or sometime a crazy desire by this 
lone worker to make world better as he imagine it.
the problem is when this lone worker is a boss, he can engage an agency in 
something great or evil, if he succeed in making the interests of his 
subordinates matching his great idea.

There is no NASA/NSA/DoE/USPTO plan, just various people having various 
ambition, fears, and hope.

fear is a great motive for most people...

2018-02-22 0:16 GMT+01:00 Jed Rothwell 
<jedrothw...@gmail.com<mailto:jedrothw...@gmail.com>>:
bobcook39...@hotmail.com<mailto:bobcook39...@hotmail.com> 
<bobcook39...@hotmail.com<mailto:bobcook39...@hotmail.com>> wrote:


Oak Ridge has LENR categorized as Battelle confidential or has a dark 
government classified program regarding LENR or cold fusion as it is commonly 
called.  Their action to remove the reference is telling IMHO

How do you know this? If it is classified or "dark government," how did you 
find out about it? That would be secret, would it not?

I have a low regard for the government's ability to keep secrets, and for the 
quality of its secrets, because my late father was in the intelligence business 
during and after WWII. He once told me:

"if you ever get into the most secret room of the State Department, and you 
open the most secret file cabinet and look in the most secret drawer, you will 
find a dried up apple and an old newspaper."

In the movie Dr. Strangelove, toward the end the Americans ask the Soviet 
ambassador where he got all of his sensitive secret information. He says, "our 
source was the New York Times." My mother heard that and said "that sounds 
about right."

As far as I know, when references to cold fusion have disappeared from 
government agencies, news articles and the like, that has been because people 
were embarrassed by the topic, or because the top brass was infuriated by it. 
That happened in some Navy research labs.

- Jed




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