Axil Axil,
Thanks for the interesting paper.  While it seems clear that small particles 
are formed in the vicinity of the gold nano particles, the mechanism does not 
appear to be understood.  If they are neutrons, as the authors think, why do 
you think they originate from the H rather than from the thorium salt in 
solution?

 

 

 

-----Original Message-----
From: Axil Axil <janap...@gmail.com>
To: vortex-l <vortex-l@eskimo.com>
Sent: Fri, Apr 28, 2017 2:47 pm
Subject: Re: [Vo]:The Kerr effect



An experiment based on this one that has been already performed as follows:



Initiation of nuclear reactions under laser irradiation of Au nanoparticles in
the presence of Thorium aqua-ions
A.V. Simakin and G.A. Shafeev


https://arxiv.org/ftp/arxiv/papers/0906/0906.4268.pdf


"The resulting average size of Au NPs as determined by Transmission Electron 
Microscopy lies between 10 and 20 nm."


The addition is to configure this experiment with two double concentric glass 
chambers with pure water and gold nanoparticles in the inner chamber and one 
with a thorium salt in solution in water filling the outer chamber but without 
any nanoparticles inside of it.


First test the two concentric chambers without nanoparticles added to the inner 
chamber. Expect to see no transmutation in either the inner or the outer 
chamber.


Next test the two concentric chambers with nanoparticles added to the inner 
chamber. Expect to see transmutation  results involving thorium in the outer 
chamber as was seen in the referenced experiment done by A.V. Simakin and G.A. 
Shafeev.


This will show that interaction between light and nanoparticles produce the 
LENR reaction and that the reaction is carried out at a distance by subatomic 
particles that can penetrate a glass wall.


Variations on the wall material: aluminum, iron, stainless steel, lead etc can 
be carried out if the laser beam enters the inner chamber from an open top of 
the inner chamber.


Next, a high voltage spark discharge can replace the laser light that is fired 
just above the top of the water level on the inner chamber. As a probe of the 
LENR reaction, expect to see transmutation results involving thorium in the 
outer chamber.










On Fri, Apr 28, 2017 at 9:26 AM, Adrian Ashfield <a.ashfi...@verizon.net> wrote:

Axil Axil,

Lattice QCD in strong magnetic Fields is too dense for me by an order of 
magnitude.  I subscribe to the theory that if one truly understands the 
situation they can explain it in relatively simple terms.

So what would you propose as a demonstration of LENR with a parameter that 
could be altered to prove your theory?



 

 

 

-----Original Message-----
From: Axil Axil <janap...@gmail.com>
To: vortex-l <vortex-l@eskimo.com>

Sent: Tue, Apr 25, 2017 7:29 pm
Subject: Re: [Vo]:The Kerr effect



IMHO, Holmlid's recent experiments using  a fast high electric field to induce 
meson production has proved the theory.


This result shows that the SPP requires an electrostatic field stimulus to 
produce the super strong magnetism necessary to activate nucleon decay.



Also, the use of anisotropic magnets (SmCo5) to induce LENR shows that 
magnetism disrupts the gluon condensate inside the proton and neutron.


Even through there is a difference between a monopole fundamental particle, a 
synthetic monopole quasiparticle like the SPP, and an anisotropic magnetic 
field formatted by a pertinent  magnet to support  monopole flux lines, the 
magnetic field produces the same effect.


The SmCo5 magnet produces a magnetic field that is anisotropic field (almost a 
monopole formated magnetic field).


This SmCo5 type magnetic supports monopole flux lines of force.



That is why the SmCo5 magnet can produce a LENR reaction. 


To refresh your memory, see


http://www.mail-archive.com/vortex-l@eskimo.com/msg108069.html


The details of what a strong monopole magnetic field does to the insides of the 
proton and neutron is yet to be determined.


I am trying to understand this: See


http://www.slac.stanford.edu/econf/C0906083/pdf/25.pdf




Lattice QCD in strong magnetic Fields







On Tue, Apr 25, 2017 at 6:31 PM, Adrian Ashfield <a.ashfi...@verizon.net> wrote:

AXil Axil,

As usual you have come up with a very imaginative theory that sounds just as 
likely or unlikely as myriads of others.
My question is how can it be proved or falsified?

 

 

 

-----Original Message-----
From: Axil Axil <janap...@gmail.com>
To: vortex-l <vortex-l@eskimo.com>
Sent: Tue, Apr 25, 2017 4:29 pm
Subject: Re: [Vo]:The Kerr effect




LENR in a nutshell

LENR is an optical based process where light is trapped in a waveform called a 
soliton. Think of this structure as Nano sized ball lightning. This ball of 
light can form in many ways: inside ultra-dense hydrogen, on the surface of 
rough metal surfaces, inside cracks in metal, on nanoparticles and 
microparticles, between nanoparticles, and in dusty plasma. But critically, 
this soliton is not active until it is triggered through the electrostatic 
effects of a stimulating emission. 

When this soliton first form, light rotates around inside the soliton and 
supports two degenerate propagating-wave modes: clockwise (CW) and 
counterclockwise (CCW) waves, manifesting the symmetry of this system. This 
counter rotation of the light negates any organization of the spin of the light 
from generating any meaningful magnetic effect. 

But when the symmetry of this counter rotating light is broken by this 
electrostatic stimulant, like a magnet all spin of the light ceases to 
interfere with each other and a newly organized super intense magnetic beam 
projects out of the soliton in an highly organized mode. The soliton then 
becomes a synthetic analog monopole quasiparticle. 

When this beam of magnetism enters inside protons and neutrons that move into 
its path, the quarks that make up these protons and neutrons change their 
type(color) and the protons and neutrons transform into exotic mesons made up 
of strange and beauty quark types. Energy is also produced in these subatomic 
particle decays and is feed back into the solitons of light thereby increasing 
their intensity. In this way, this infusion of incoming subatomic energy allows 
the soliton to survive for an extended period in a self-sustaining mode while 
the electrostatic stimulant continues to maintain the organization of the 
photonic spin. 

Leif Holmlid has been using a laser pulse as the stimulator but yesterday 
Sveinn Olafsson just told me this: “Leif has applied fast high electric field 
and sees meson signal”



On Sun, Apr 23, 2017 at 9:47 PM, Axil Axil <janap...@gmail.com> wrote:


A post that might hold some insights as follows:



Giuseppe April 23, 2017 at 3:37 PM
Dear Andrea,

seems that to activate the E-Cat you need heat, does the QuarkX need heat to be 
activated?

Best regards, Giuseppe

Andrea Rossi April 23, 2017 at 3:48 PM
Giuseppe:

Not exactly. The mechanism is much more complex and is based on electromagnetic 
fields.

Warm Regards,

A.R.

================
The nature of the LENR reaction has evolved when the gas envelope is in the 
plasma state to depend solely on optical mechanisms. An EMF trigger is the 
factor can gets the LENR reaction going. not heat. As stated in the Rossi 
patent, very high voltage electrostatic potential is that trigger. The name of 
the triggering effect is "kerr effect". The minimum voltage at which the kerr 
effect is triggered is 30,000 volts.


This trigger applies to both Rossi's low temperature reactions and his plasma 
based reactions.


Kerr electro-optic effect

The Kerr electro-optic effect, or DC Kerr effect, is the special case in which 
a slowly varying external electric field is applied by, for instance, a voltage 
on electrodes across the sample material. Under this influence, the sample 
becomes birefringent, with different indices of refraction for light polarized 
parallel to or perpendicular to the applied field. The difference in index of 
refraction is controlled by the strength of the applied electric field.





Birefringence modifies how light behaves inside a whispering gallery wave.



Birefringence is the optical property of a material having a refractive index 
that depends on the polarization and propagation direction of light. These 
optically anisotropic materials are said to be birefringent (or birefractive). 
The birefringence is often quantified as the maximum difference between 
refractive indices exhibited by the material. Crystals with non-cubic crystal 
structures are often birefringent, as are plastics under mechanical stress.



The kerr effect produces a change in stated of the optical properties that 
underpin the LENR reaction. Research should be directed at finding where that 
change of state sets in.


As in Holmlid's experiments, a laser can produce the kerr effect


Optical Kerr effect

The optical Kerr effect, or AC Kerr effect is the case in which the electric 
field is due to the light itself. This causes a variation in index of 
refraction which is proportional to the local irradiance of the light. This 
refractive index variation is responsible for the nonlinear optical effects of 
self-focusing, self-phase modulation and modulational instability, and is the 
basis for Kerr-lens modelocking. This effect only becomes significant with very 
intense beams such as those from lasers. The optical Kerr effect has also been 
observed to dynamically alter the mode-coupling properties in multimode fibre, 
a technique that has potential applications for all-optical switching 
mechanisms.
















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