RE: [Vo]:LENR as a superconductor

2017-08-14 Thread bobcook39...@hotmail.com 
Conductivity and resistance apply generally to a common state of matter.  Super 
conductivity is also addresses an assemblage of such matter.

As far as I know these parameters do not apply to a coherent QM system.

If LENR reactors work within a coherent system the redistribution of charge to 
a boundary of the system may occur instanteously.(With quarks and gluons 
who know what happens in such a system.)

Maybe Randy’s GUT address the mechanics of such a system and the redistribution 
of charge.

Thinking outside the box,

Bob Cook--






From: Axil Axil<mailto:janap...@gmail.com>
Sent: Saturday, August 12, 2017 9:11 PM
To: vortex-l<mailto:vortex-l@eskimo.com>
Subject: Re: [Vo]:LENR as a superconductor

A polariton is a special quasiparticle. It is an electron that has has most of 
its mass and charge removed. It can only exist when it is generated by a 
nanoparticle or a pit or bump in the surface of a metal.

[images?q=tbn:ANd9GcQqntI4AAmOXn4EGD6gM9_3X8cC1meU-fGlYhNgOkHfuFZ95N2g9g]

This is a picture of polariton formation in pits and bumps in a metal.

As a special case, metallic hydrogen is a nanowire that produces the LENR 
reaction without a plasma forming. This includes other hydrogen based metalized 
compounds like water.

But when a plasma is used to produce the LENR reaction, because the polariton 
needs is a nanoparticle to exist, it is passively critical. When that 
nanoparticle vaporizes, the polariton dies. So a dirty plasma that is passively 
maintained at the vaporization point of a given metal will produce many self 
sustaining forms of energy including heat, light. XUV. x-rays, gamma, pressure 
from fast particle generated shock waves, electrons  and various other types of 
subatomic particles.

On Sun, Aug 13, 2017 at 12:04 AM, Kevin O'Malley 
<kevmol...@gmail.com<mailto:kevmol...@gmail.com>> wrote:
On 8/12/17, Axil Axil <janap...@gmail.com<mailto:janap...@gmail.com>> wrote:

  What we see in that polariton
> condensate is how the universe functioned during the first few seconds at
> the beginning of the universe before the universe cooled.
 ***That's disheartening.   It would mean there is very little chance
of stabilizing such a condition to be able to harness it for energy.

Re: [Vo]:LENR as a superconductor

2017-08-12 Thread Axil Axil 
A polariton is a special quasiparticle. It is an electron that has has most
of its mass and charge removed. It can only exist when it is generated by a
nanoparticle or a pit or bump in the surface of a metal.

[image:
images?q=tbn:ANd9GcQqntI4AAmOXn4EGD6gM9_3X8cC1meU-fGlYhNgOkHfuFZ95N2g9g]

This is a picture of polariton formation in pits and bumps in a metal.

As a special case, metallic hydrogen is a nanowire that produces the LENR
reaction without a plasma forming. This includes other hydrogen based
metalized compounds like water.

But when a plasma is used to produce the LENR reaction, because the
polariton needs is a nanoparticle to exist, it is passively critical. When
that nanoparticle vaporizes, the polariton dies. So a dirty plasma that is
passively maintained at the vaporization point of a given metal will
produce many self sustaining forms of energy including heat, light. XUV.
x-rays, gamma, pressure from fast particle generated shock waves, electrons
 and various other types of subatomic particles.

On Sun, Aug 13, 2017 at 12:04 AM, Kevin O'Malley 
wrote:

> On 8/12/17, Axil Axil  wrote:
>
>   What we see in that polariton
> > condensate is how the universe functioned during the first few seconds at
> > the beginning of the universe before the universe cooled.
>  ***That's disheartening.   It would mean there is very little chance
> of stabilizing such a condition to be able to harness it for energy.
>
>

Re: [Vo]:LENR as a superconductor

2017-08-12 Thread Kevin O'Malley 
On 8/12/17, Axil Axil  wrote:

  What we see in that polariton
> condensate is how the universe functioned during the first few seconds at
> the beginning of the universe before the universe cooled.
 ***That's disheartening.   It would mean there is very little chance
of stabilizing such a condition to be able to harness it for energy.

Re: [Vo]:LENR as a superconductor

2017-08-12 Thread Axil Axil 
In the grand unification theory (GUT) proposed by Howard Georgi and Sheldon
Glashow in 1974, the road to grand unification took the wrong road by
assuming that the fundamental forces of nature could come together when a
single particle could be pumped with the huge amounts of energy required to
expose the unification of the fundamental forces.

But the correct road to grand unification of forces was through Bose
condensation of many particles. The condensate acts like a single particle
but the energy that the condensate assumes is the sum of all the energy of
all the members of the condensate.

Unlike the conditions that exist in ultra cold atomic BECs, the  Bose
condensation produced by polaritons has the proper particle mass. energy,
and aggregation numbers to access and expose the extra dimensions that are
not usually accessible to ordinary reality. What we see in that polariton
condensate is how the universe functioned during the first few seconds at
the beginning of the universe before the universe cooled.

This condition can be seen today in selected polariton base BEC experiments
that show the increased activity of the weak force in stabilizing
 radioactive isotopes.

This process has been patented by the US Navy and is available for licensed
development.

https://www.google.com/patents/US8419919

Original Assignee Jwk International Corporation

, The United States Of America As Represented By The Secretary Of The Navy

,This grant of this patent means that the process works as certified by the
US patent office.


A very pure and direct polariton based nanoplasmonic experiment via light
pumped  nanoparticles that enables us to see change in the weak force is
here.

Accelerated alpha-decay of 232U isotope achieved by exposure of its aqueous
solution with gold nanoparticles to laser radiation

A.V. Simakin, G.A. Shafeev

http://www.google.com/url?sa=t=j==s=1=web=1=rja=2=0CC4QFjAA=http%3A%2F%2Farxiv.org%2Fpdf%2F1112.6276=nI6UUeG1Fq-N0QGypIAg=AFQjCNFB59F1wkDv-NzeYg5TpnyZV1kpKQ=fhdWJ_enNKlLA4HboFBTUA=bv.46471029,d.dmQ



On Sat, Aug 12, 2017 at 8:10 PM, Che  wrote:

>
>
> On Sat, Aug 12, 2017 at 5:21 PM, Axil Axil  wrote:
>
> > See how quantum mechanics can generate this Bose condensate that can
> form at 3000K here.
> >
> > https://arxiv.org/abs/1509.05264
>
>
> If true -- I have understood nothing essential about Reality.
> :P
>
>
>
>
>
>

Re: [Vo]:LENR as a superconductor

2017-08-12 Thread Che 
On Sat, Aug 12, 2017 at 5:21 PM, Axil Axil  wrote:

> See how quantum mechanics can generate this Bose condensate that can form
at 3000K here.
>
> https://arxiv.org/abs/1509.05264


If true -- I have understood nothing essential about Reality.
:P

Re: [Vo]:LENR as a superconductor

2017-08-12 Thread Daniel Rocha 
A superconductor must have the Meisner effect
https://en.wikipedia.org/wiki/Meissner_effect
The non detection of resistance is merely an evidence for
superconductivity.

2017-08-12 18:21 GMT-03:00 Axil Axil :

> There has been a lot of discussion here recently about the resistance of
> the E-Cat QuarkX, and Andrea Rossi had said that he considered the matter
> of the electrical resistance of the E-Cat QX to be confidential information.
>
> Today on the Journal of Nuclear Physics, however, Rossi gave a direct
> answer to a question on the subject:
>
> Prof
> August 10, 2017 at 4:21 AM
> Dear Dr Andrea Rossi:
> Which is the internal resistance of the Ecat QX?
> Cheers
> Prof
>
> Andrea Rossi
> August 10, 2017 at 2:33 PM
> Prof:
> Zero.
> Warm Regards,
> A.R.
>
> If this really is the case, then the E-Cat QX would be a superconductor —
> making it even more remarkable than “just” being an energy catalyzer/energy
> multiplier
>
>
> Superconductivity is just as or maybe even more controversial than LENR
> is. Who could imagine that a material could become superconducting at room
> temperature let alone at 3000K. But there are indicators in LENR
> experiments that point to superconductors partially forming at room
> temperature and even at higher temperatures.
>
> For example, the electrical resistance of Celini's wire goes down when its
> temperature rises. Also hydrogen loaded palladium becomes a room
> temperature superconductor when the hydrogen loading is high.
>
> One of the factors that can be causing this drop in electrical resistance
> is the formation of islands of superconductivity that form in the lattice
> or the plasma that is producing the LENR effect.
>
> Electrons could be jumping from island to island in their trip across the
> lattice. When the electron is moving past the LENR Island on its boundary,
> it gets a free ride but the resistance returns in its trip between islands.
>
> Ultra-dense hydrogen has been found to be a room temperature
> superconductor and produces the messier effect. Highly loaded palladium
> could contain a high number of Ultra-dense hydrogen islands of
> superconductivity in a lattice.
>
> Rossi’s plasma could contain a high number of LENR reaction generating
> superconducting nanowires (Ken Shoulders called them EVOs) that let
> electrons travel on them with no resistance.
>
> I believe that Rossi adds vanadium oxide to his fuel mix as LENR reaction
> booster. This additive vaporizes at 3000K. In this way, this additive
> produces vanadium nanowires at 3000K when the vanadium condenses like rain
> drops in a cloud; the electric current jumps from nanowire to nanowire as
> they get a free ride across the plasma thereby reducing the electrical
> resistant to near zero.
>
> This negation in electrical resistant produced by a hot research topic is
> sciences these days called non-equilibrium Bose-Einstein condensates, a
> state of matter produced in polaritons. The vanadium nanoparticles like
> most other transition metal nanowires carry polaritons on their surface.
>
> See how quantum mechanics can generate this Bose condensate that can form
> at 3000K here.
>
> https://arxiv.org/abs/1509.05264
>
> Here is what the surface of a hot metal nanowire looks like when
> polaritons can be envisioned.
>
> [image: Thumbnail]
> 
>
>
>


-- 
Daniel Rocha - RJ
danieldi...@gmail.com