Re: [Vo]:Discontinuous fractal based specific heat spectrum of SPP

[Axil Axil]

Another method that might be used in the exploration of  string theory
comes out of optics associated with the Bose Condensation of light.

Calorimetry of a Bose–Einstein-condensed photon gas

https://www.nature.com/articles/ncomms11340

Also see this article

https://phys.org/news/2016-04-capacity-condensed.html

"the temperature of a gas of light can not be measured with a thermometer;
but that is also not necessary. "In order to determine the temperature of
the gas, it is only necessary to know the different wavelengths of the
light particles – the distribution of its colors", says Klärs. And this can
be determined with extreme precision with the methods available today."

This level of extreme precision is just what the string theorist needs to
test his ideas.

On Tue, Aug 8, 2017 at 5:48 PM, Brian Ahern <ahern_br...@msn.com> wrote:

> Unfortunately, Ken Shoulders never succeeded in providing a recipe for his
> claims. He died without revealing anything.Perhaps he had nothing new.
>
> I think he had nothing.
> --
> *From:* Axil Axil <janap...@gmail.com>
> *Sent:* Tuesday, August 8, 2017 5:34 PM
>
> *To:* vortex-l
> *Subject:* Re: [Vo]:Discontinuous fractal based specific heat spectrum of
> SPP
>
>
> http://en.wikipedia.org/wiki/List_of_quasiparticles
>
>
> We can understand from this list of quasiparticles that a quasiparticle
> can be simple in that it is comprised by only fundamental particles, or
> complex in that it can be made up of a mixture of fundamental and/or any
> number of less complicated quasiparticles.
>
>
> In my opinion, there is a unrecognized complex quasiparticle that produces
> the LENR reaction. This quasiparticle has been identified in the tracks
> that it leaves in photo emulsions from LENR ash as a monopole by some LENR
> researchers  or a tachyon monopole by other LENR researchers.
>
>
> The generic term that is in common use by these LENR researchers for this
> type of LENR active quasiparticle is the "Exotic Neutral Particle".
>
>
> One very important instance of this quasiparticle is the EVO coined by Ken
> Shoulders. Ken said that this particle was both a monopole and a micro
> black hole.
>
>
> What I beleive that this LENR active quasiparticle consists of is a metal
> nanoparticle with a covering of a Bose condinsate of polaritons. The Ultra
> Dense Hydrogen nanoparticle is one instance of this type of quasiparticle.
> Other kinds of the like particles are comprised of any transition metal
> nanoparticle excited by light and/or heat based EMF.
>
>
> Ken Shoulders did not imagine that electrons cannot aggregate into a dense
> cluster because they are fermions. But when electrons on the surface of a
> transition metal nanoparticle are confined along with photons, electrons
> become bosons and they can aggregate and condense in uncountable numbers.
>
>
> Ken built these quasiparticles by first vaporizing metal with a spark then
> when the metal vapor solidified into a nanoparticle and its surface was
> coated with polaritons generated by the energy from the spark, the LENR
> active particle (LAP) was born.
>
>
> Holmlid, Shoulders, Rossi, Mills, Pons and Fleischmann, all of them...
> together with many others LENR experimenters have all built the LAP and got
> the LENR reaction to come alive. Like UDH, once created the LAP can persist
> for days, they are self sustaining as long as they can feed off the energy
> that they extract from the matter around them. They store energy in the
> polariton condensate coating  and because they are superconducting there is
> almost no energy loss from diffusion and their energy stores lasts for a
> very long time.
>
>
> Shoulders states:
>
>
> “They can be just about anywhere, it is handy for me because I can analyse
> them in a vacuum - they can exist in a solid, literally in some of John’s
> [John Hutchinson] work, in the middle of the middle I’ve seen a paper that
> showed things like that and many other cold fusion guys. I’ve created them
> and kept them overnight and when I come in next morning they blow to
> smithereens - but I think they did some wrong things to make them do those
> things.”
>
>
> “They are extremely ubiquitous things, you can shuffle across this road
> and you will have created them those marks - little marks on that door knob
> are the witness marks - they are just everywhere, you get out of your car,
> rub across your seat and snap… you just made one."
>
>
> "Their physically large enough to see but they are in the diameter of a
> hair”
>
> …
>
> “I have seen a 5 and 20 um one and my present job is to get them bigger
> and bigger and bigger”
>
>
> “I hav

Re: [Vo]:Discontinuous fractal based specific heat spectrum of SPP

[Brian Ahern]

Unfortunately, Ken Shoulders never succeeded in providing a recipe for his 
claims. He died without revealing anything.Perhaps he had nothing new.

I think he had nothing.

From: Axil Axil <janap...@gmail.com>
Sent: Tuesday, August 8, 2017 5:34 PM
To: vortex-l
Subject: Re: [Vo]:Discontinuous fractal based specific heat spectrum of SPP


http://en.wikipedia.org/wiki/List_of_quasiparticles


We can understand from this list of quasiparticles that a quasiparticle can be 
simple in that it is comprised by only fundamental particles, or complex in 
that it can be made up of a mixture of fundamental and/or any number of less 
complicated quasiparticles.


In my opinion, there is a unrecognized complex quasiparticle that produces the 
LENR reaction. This quasiparticle has been identified in the tracks that it 
leaves in photo emulsions from LENR ash as a monopole by some LENR researchers  
or a tachyon monopole by other LENR researchers.


The generic term that is in common use by these LENR researchers for this type 
of LENR active quasiparticle is the "Exotic Neutral Particle".


One very important instance of this quasiparticle is the EVO coined by Ken 
Shoulders. Ken said that this particle was both a monopole and a micro black 
hole.


What I beleive that this LENR active quasiparticle consists of is a metal 
nanoparticle with a covering of a Bose condinsate of polaritons. The Ultra 
Dense Hydrogen nanoparticle is one instance of this type of quasiparticle. 
Other kinds of the like particles are comprised of any transition metal 
nanoparticle excited by light and/or heat based EMF.


Ken Shoulders did not imagine that electrons cannot aggregate into a dense 
cluster because they are fermions. But when electrons on the surface of a 
transition metal nanoparticle are confined along with photons, electrons become 
bosons and they can aggregate and condense in uncountable numbers.


Ken built these quasiparticles by first vaporizing metal with a spark then when 
the metal vapor solidified into a nanoparticle and its surface was coated with 
polaritons generated by the energy from the spark, the LENR active particle 
(LAP) was born.


Holmlid, Shoulders, Rossi, Mills, Pons and Fleischmann, all of them...  
together with many others LENR experimenters have all built the LAP and got the 
LENR reaction to come alive. Like UDH, once created the LAP can persist for 
days, they are self sustaining as long as they can feed off the energy that 
they extract from the matter around them. They store energy in the polariton 
condensate coating  and because they are superconducting there is almost no 
energy loss from diffusion and their energy stores lasts for a very long time.


Shoulders states:


“They can be just about anywhere, it is handy for me because I can analyse them 
in a vacuum - they can exist in a solid, literally in some of John’s [John 
Hutchinson] work, in the middle of the middle I’ve seen a paper that showed 
things like that and many other cold fusion guys. I’ve created them and kept 
them overnight and when I come in next morning they blow to smithereens - but I 
think they did some wrong things to make them do those things.”


“They are extremely ubiquitous things, you can shuffle across this road and you 
will have created them those marks - little marks on that door knob are the 
witness marks - they are just everywhere, you get out of your car, rub across 
your seat and snap… you just made one."


"Their physically large enough to see but they are in the diameter of a hair”

…

“I have seen a 5 and 20 um one and my present job is to get them bigger and 
bigger and bigger”


“I have been able to use these little biddy machines I make to get them up to 
100um so far.”


 “they are stable unless I intentionally blow them up”

On Tue, Aug 8, 2017 at 2:59 PM, 
bobcook39...@hotmail.com<mailto:bobcook39...@hotmail.com> 
<bobcook39...@hotmail.com<mailto:bobcook39...@hotmail.com>> wrote:
Axil—

I reviewed the item in Infinite Energy in 2010 of the interview with John 
Fisher about his polyneutron theory and experimental work with the late Richard 
Oriani, the experimentalist in LENR:

   http://www.infinite-energy.com/images/pdfs/OrianiFisherCollab.pdf

The testing Fisher reports seems wile the “LENR” happened in the gases around 
the electrodes, not unlike what has been reported as LENR  in a dusty plasma.

The reported production of charged particles reflects Rossi’s apparent reported 
direct electrical energy production in his Quark-X reactor.

Bob Cook


From: Axil Axil<mailto:janap...@gmail.com>
Sent: Friday, August 4, 2017 11:17 AM

To: vortex-l<mailto:vortex-l@eskimo.com>
Subject: Re: [Vo]:Discontinuous fractal based specific heat spectrum of SPP


In response to the requirement  for data supporting theoretical predictions of 
discontinuity in the specific heat of polariton/plasmonic based Bose 
condensates, ple

Re: [Vo]:Discontinuous fractal based specific heat spectrum of SPP

[Axil Axil]

http://en.wikipedia.org/wiki/List_of_quasiparticles


We can understand from this list of quasiparticles that a quasiparticle can
be simple in that it is comprised by only fundamental particles, or complex
in that it can be made up of a mixture of fundamental and/or any number of
less complicated quasiparticles.


In my opinion, there is a unrecognized complex quasiparticle that produces
the LENR reaction. This quasiparticle has been identified in the tracks
that it leaves in photo emulsions from LENR ash as a monopole by some LENR
researchers  or a tachyon monopole by other LENR researchers.


The generic term that is in common use by these LENR researchers for this
type of LENR active quasiparticle is the "Exotic Neutral Particle"​.


One very important instance of this quasiparticle is the EVO coined by Ken
Shoulders. Ken said that this particle was both a monopole and a micro
black hole.


What I beleive that this LENR active quasiparticle consists of is a metal
nanoparticle with a covering of a Bose condinsate of polaritons. The Ultra
Dense Hydrogen nanoparticle is one instance of this type of quasiparticle.
Other kinds of the like particles are comprised of any transition metal
nanoparticle excited by light and/or heat based EMF.


Ken Shoulders did not imagine that electrons cannot aggregate into a dense
cluster because they are fermions. But when electrons on the surface of a
transition metal nanoparticle are confined along with photons, electrons
become bosons and they can aggregate and condense in uncountable numbers.


Ken built these quasiparticles by first vaporizing metal with a spark then
when the metal vapor solidified into a nanoparticle and its surface was
coated with polaritons generated by the energy from the spark, the LENR
active particle (LAP) was born.


Holmlid, Shoulders, Rossi, Mills, Pons and Fleischmann, all of them... ​
together with many others LENR experimenters have all built the LAP and got
the LENR reaction to come alive. Like UDH, once created the LAP can persist
for days, they are self sustaining as long as they can feed off the energy
that they extract from the matter around them. They store energy in the
polariton condensate coating  and because they are superconducting there is
almost no energy loss from diffusion and their energy stores lasts for a
very long time.


Shoulders states:


“They can be just about anywhere, it is handy for me because I can analyse
them in a vacuum - they can exist in a solid, literally in some of John’s
[John Hutchinson] work, in the middle of the middle I’ve seen a paper that
showed things like that and many other cold fusion guys. I’ve created them
and kept them overnight and when I come in next morning they blow to
smithereens - but I think they did some wrong things to make them do those
things.”


“They are extremely ubiquitous things, you can shuffle across this road and
you will have created them those marks - little marks on that door knob are
the witness marks - they are just everywhere, you get out of your car, rub
across your seat and snap… you just made one."


"Their physically large enough to see but they are in the diameter of a
hair”

…

“I have seen a 5 and 20 um one and my present job is to get them bigger and
bigger and bigger”


“I have been able to use these little biddy machines I make to get them up
to 100um so far.”


 “they are stable unless I intentionally blow them up”

On Tue, Aug 8, 2017 at 2:59 PM, bobcook39...@hotmail.com <
bobcook39...@hotmail.com> wrote:

> Axil—
>
>
>
> I reviewed the item in Infinite Energy in 2010 of the interview with John
> Fisher about his polyneutron theory and experimental work with the late
> Richard Oriani, the experimentalist in LENR:
>
>
>
>http://www.infinite-energy.com/images/pdfs/OrianiFisherCollab.pdf
>
>
>
> The testing Fisher reports seems wile the “LENR” happened in the gases
> around the electrodes, not unlike what has been reported as LENR  in a
> dusty plasma.
>
>
>
> The reported production of charged particles reflects Rossi’s apparent
> reported direct electrical energy production in his Quark-X reactor.
>
>
>
> Bob Cook
>
>
>
>
>
> *From: *Axil Axil <janap...@gmail.com>
> *Sent: *Friday, August 4, 2017 11:17 AM
>
> *To: *vortex-l <vortex-l@eskimo.com>
> *Subject: *Re: [Vo]:Discontinuous fractal based specific heat spectrum of
> SPP
>
>
>
> In response to the requirement  for data supporting theoretical
> predictions of discontinuity in the specific heat of polariton/plasmonic
> based Bose condensates, please consider this example of specific heat
> discontinuity in a family of solid state systems showing the associated
> onset of unconventional superconductivity.
>
>
>
> http://iopscience.iop.org/article/10.1088/0953-8984/23/22/01
>
>
>
> Specific heat disco

RE: [Vo]:Discontinuous fractal based specific heat spectrum of SPP

[bobcook39...@hotmail.com]

Axil—

I reviewed the item in Infinite Energy in 2010 of the interview with John 
Fisher about his polyneutron theory and experimental work with the late Richard 
Oriani, the experimentalist in LENR:

   http://www.infinite-energy.com/images/pdfs/OrianiFisherCollab.pdf

The testing Fisher reports seems wile the “LENR” happened in the gases around 
the electrodes, not unlike what has been reported as LENR  in a dusty plasma.

The reported production of charged particles reflects Rossi’s apparent reported 
direct electrical energy production in his Quark-X reactor.

Bob Cook


From: Axil Axil<mailto:janap...@gmail.com>
Sent: Friday, August 4, 2017 11:17 AM
To: vortex-l<mailto:vortex-l@eskimo.com>
Subject: Re: [Vo]:Discontinuous fractal based specific heat spectrum of SPP


In response to the requirement  for data supporting theoretical predictions of 
discontinuity in the specific heat of polariton/plasmonic based Bose 
condensates, please consider this example of specific heat discontinuity in a 
family of solid state systems showing the associated onset of unconventional 
superconductivity.



http://iopscience.iop.org/article/10.1088/0953-8984/23/22/01



Specific heat discontinuity, ΔC, at Tc in BaFe2(As0.7P0.3)2—consistent with 
unconventional superconductivity



Bose condensation is solid state systems might fill the need for use as a 
research tool to show string theory productions.


On Thu, Aug 3, 2017 at 12:45 PM, Axil Axil 
<janap...@gmail.com<mailto:janap...@gmail.com>> wrote:
Sorry, try this one

arquivos.info.ufrn.br/arquivos/2009125149a1081961856e8a74678fd2/PhysicaA04.pdf<http://arquivos.info.ufrn.br/arquivos/2009125149a1081961856e8a74678fd2/PhysicaA04.pdf>



On Thu, Aug 3, 2017 at 11:26 AM, 
bobcook39...@hotmail.com<mailto:bobcook39...@hotmail.com> 
<bobcook39...@hotmail.com<mailto:bobcook39...@hotmail.com>> wrote:
Axil—

The following link has no figures and

1707.07757 [gr-qc]<https://arxiv.org/abs/1707.07757>

Are you sure it is the document you say has the figure with the fractal energy 
spectrum?

Bob Cook


From: Axil Axil<mailto:janap...@gmail.com>
Sent: Wednesday, August 2, 2017 5:36 PM
To: vortex-l<mailto:vortex-l@eskimo.com>
Subject: Re: [Vo]:Discontinuous fractal based specific heat spectrum of SPP

Figure 1 in arXiv:1707.07757 [gr-qc]<https://arxiv.org/abs/1707.07757> shows 
what a fractal energy spectrum would look like.

On page 367 and 368 it is explained, as energy is added to the system, that 
additional energy goes into filling the 11 energy levels from low orfer to 
higher order. For example, e1 to e2 then on the next level e4 to e4 then on the 
next level e5 to e6 and so on.

When a given energy level is completely filled, there is a discontinuous jump 
in specific heat to the next energy level which makes more room for more energy 
storage space.

As more energy is loaded into the SPP BEC, more energy storage space is created 
to accommodate that added energy. The specific heat of the BEC increases as 
energy  is added but with quantum like discontinuities up through 11 levels. 
These 11 levels correspond to the 11 dimensions required by string theory.

According to the Mexican paper,

arquivos.info.ufrn.br/arquivos/2009125149a1081961856e8a74678fd2/PhysicaA04.pdf<http://arquivos.info.ufrn.br/arquivos/2009125149a1081961856e8a74678fd2/PhysicaA04.pdf>

this energy filing mechanism represents how the hidden dimensions of string 
theory are utilized to handle the increasing amplitude of a particle's wave 
function as additional energy is added to that wave function.

When the energy of the wave function of the particle increases, the fundamental 
forces begin to converge as per grand unification.

In terms of LENR, the SPP BEC and a high energy particle both with increasing 
energy have the same Grand unification functionality as energy is added to each 
system.



On Wed, Aug 2, 2017 at 8:08 PM, 
bobcook39...@hotmail.com<mailto:bobcook39...@hotmail.com> 
<bobcook39...@hotmail.com<mailto:bobcook39...@hotmail.com>> wrote:
Axil—

Do you know of any examples of a “ complex fractal energy spectrum”.  That 
would help explain what such a spectrum is.

Bob Cook


From: Axil Axil<mailto:janap...@gmail.com>
Sent: Wednesday, August 2, 2017 8:42 AM
To: vortex-l<mailto:vortex-l@eskimo.com>
Subject: [Vo]:Discontinuous fractal based specific heat spectrum of SPP


http://physicsworld.com/cws/article/news/2017/aug/01/could-extra-dimensions-be-detected-by-a-bose-einstein-condensate



The paper referenced in this article could be drawing another duel between 
string theory and condensed matter physics.



String theory phenomenology and quantum many–body systems

Sergio Gutiérrez, Abel Camacho, Héctor Hernández



arXiv:1707.07757 [gr-qc]<https://arxiv.org/abs/1707.07757>



In the paper, the authors calculate how additional space-like dimensions affect 
a condensate of ul

Re: [Vo]:Discontinuous fractal based specific heat spectrum of SPP

[Axil Axil]

In response to the requirement  for data supporting theoretical predictions
of discontinuity in the specific heat of polariton/plasmonic based Bose
condensates, please consider this example of specific heat discontinuity in
a family of solid state systems showing the associated onset of
unconventional superconductivity.


http://iopscience.iop.org/article/10.1088/0953-8984/23/22/01


Specific heat discontinuity, ΔC, at Tc in BaFe2(As0.7P0.3)2—consistent with
unconventional superconductivity


Bose condensation is solid state systems might fill the need for use as a
research tool to show string theory productions.


On Thu, Aug 3, 2017 at 12:45 PM, Axil Axil <janap...@gmail.com> wrote:

> Sorry, try this one
>
> arquivos.info.ufrn.br/arquivos/2009125149a1081961856e8a74678
> fd2/PhysicaA04.pdf
>
>
>
> On Thu, Aug 3, 2017 at 11:26 AM, bobcook39...@hotmail.com <
> bobcook39...@hotmail.com> wrote:
>
>> Axil—
>>
>>
>>
>> The following link has no figures and
>>
>>
>>
>> 1707.07757 [gr-qc] <https://arxiv.org/abs/1707.07757>
>>
>>
>>
>> Are you sure it is the document you say has the figure with the fractal
>> energy spectrum?
>>
>>
>>
>> Bob Cook
>>
>>
>>
>>
>>
>> *From: *Axil Axil <janap...@gmail.com>
>> *Sent: *Wednesday, August 2, 2017 5:36 PM
>> *To: *vortex-l <vortex-l@eskimo.com>
>> *Subject: *Re: [Vo]:Discontinuous fractal based specific heat spectrum
>> of SPP
>>
>>
>>
>> Figure 1 in arXiv:1707.07757 [gr-qc] <https://arxiv.org/abs/1707.07757> shows
>> what a fractal energy spectrum would look like.
>>
>>
>>
>> On page 367 and 368 it is explained, as energy is added to the system,
>> that additional energy goes into filling the 11 energy levels from low
>> orfer to higher order. For example, e1 to e2 then on the next level e4 to
>> e4 then on the next level e5 to e6 and so on.
>>
>>
>>
>> When a given energy level is completely filled, there is a discontinuous
>> jump in specific heat to the next energy level which makes more room for
>> more energy storage space.
>>
>>
>>
>> As more energy is loaded into the SPP BEC, more energy storage space is
>> created to accommodate that added energy. The specific heat of the BEC
>> increases as energy  is added but with quantum like discontinuities up
>> through 11 levels. These 11 levels correspond to the 11 dimensions required
>> by string theory.
>>
>>
>>
>> According to the Mexican paper,
>>
>>
>>
>> arquivos.info.ufrn.br/arquivos/2009125149a1081961856e8a74678
>> fd2/PhysicaA04.pdf
>>
>>
>>
>> this energy filing mechanism represents how the hidden dimensions of
>> string theory are utilized to handle the increasing amplitude of a
>> particle's wave function as additional energy is added to that wave
>> function.
>>
>>
>>
>> When the energy of the wave function of the particle increases, the
>> fundamental forces begin to converge as per grand unification.
>>
>>
>>
>> In terms of LENR, the SPP BEC and a high energy particle both with
>> increasing energy have the same Grand unification functionality as energy
>> is added to each system.
>>
>>
>>
>>
>>
>>
>>
>> On Wed, Aug 2, 2017 at 8:08 PM, bobcook39...@hotmail.com <
>> bobcook39...@hotmail.com> wrote:
>>
>> Axil—
>>
>>
>>
>> Do you know of any examples of a “ complex fractal energy spectrum”.
>> That would help explain what such a spectrum is.
>>
>>
>>
>> Bob Cook
>>
>>
>>
>>
>>
>> *From: *Axil Axil <janap...@gmail.com>
>> *Sent: *Wednesday, August 2, 2017 8:42 AM
>> *To: *vortex-l <vortex-l@eskimo.com>
>> *Subject: *[Vo]:Discontinuous fractal based specific heat spectrum of SPP
>>
>>
>>
>> http://physicsworld.com/cws/article/news/2017/aug/01/could-
>> extra-dimensions-be-detected-by-a-bose-einstein-condensate
>>
>>
>>
>> The paper referenced in this article could be drawing another duel
>> between string theory and condensed matter physics.
>>
>>
>>
>> *String theory phenomenology and quantum many–body systems*
>>
>> Sergio Gutiérrez, Abel Camacho, Héctor Hernández
>>
>>
>>
>> arXiv:1707.07757 [gr-qc] <https://arxiv.org/abs/1707.07757>
>>
>>
>>
>> In the paper, the authors calculate how additional space-like dimensions
>

Re: [Vo]:Discontinuous fractal based specific heat spectrum of SPP

[Axil Axil]

Sorry, try this one

arquivos.info.ufrn.br/arquivos/2009125149a1081961856e8a74678f
d2/PhysicaA04.pdf



On Thu, Aug 3, 2017 at 11:26 AM, bobcook39...@hotmail.com <
bobcook39...@hotmail.com> wrote:

> Axil—
>
>
>
> The following link has no figures and
>
>
>
> 1707.07757 [gr-qc] <https://arxiv.org/abs/1707.07757>
>
>
>
> Are you sure it is the document you say has the figure with the fractal
> energy spectrum?
>
>
>
> Bob Cook
>
>
>
>
>
> *From: *Axil Axil <janap...@gmail.com>
> *Sent: *Wednesday, August 2, 2017 5:36 PM
> *To: *vortex-l <vortex-l@eskimo.com>
> *Subject: *Re: [Vo]:Discontinuous fractal based specific heat spectrum of
> SPP
>
>
>
> Figure 1 in arXiv:1707.07757 [gr-qc] <https://arxiv.org/abs/1707.07757> shows
> what a fractal energy spectrum would look like.
>
>
>
> On page 367 and 368 it is explained, as energy is added to the system,
> that additional energy goes into filling the 11 energy levels from low
> orfer to higher order. For example, e1 to e2 then on the next level e4 to
> e4 then on the next level e5 to e6 and so on.
>
>
>
> When a given energy level is completely filled, there is a discontinuous
> jump in specific heat to the next energy level which makes more room for
> more energy storage space.
>
>
>
> As more energy is loaded into the SPP BEC, more energy storage space is
> created to accommodate that added energy. The specific heat of the BEC
> increases as energy  is added but with quantum like discontinuities up
> through 11 levels. These 11 levels correspond to the 11 dimensions required
> by string theory.
>
>
>
> According to the Mexican paper,
>
>
>
> arquivos.info.ufrn.br/arquivos/2009125149a1081961856e8a74678f
> d2/PhysicaA04.pdf
>
>
>
> this energy filing mechanism represents how the hidden dimensions of
> string theory are utilized to handle the increasing amplitude of a
> particle's wave function as additional energy is added to that wave
> function.
>
>
>
> When the energy of the wave function of the particle increases, the
> fundamental forces begin to converge as per grand unification.
>
>
>
> In terms of LENR, the SPP BEC and a high energy particle both with
> increasing energy have the same Grand unification functionality as energy
> is added to each system.
>
>
>
>
>
>
>
> On Wed, Aug 2, 2017 at 8:08 PM, bobcook39...@hotmail.com <
> bobcook39...@hotmail.com> wrote:
>
> Axil—
>
>
>
> Do you know of any examples of a “ complex fractal energy spectrum”.
> That would help explain what such a spectrum is.
>
>
>
> Bob Cook
>
>
>
>
>
> *From: *Axil Axil <janap...@gmail.com>
> *Sent: *Wednesday, August 2, 2017 8:42 AM
> *To: *vortex-l <vortex-l@eskimo.com>
> *Subject: *[Vo]:Discontinuous fractal based specific heat spectrum of SPP
>
>
>
> http://physicsworld.com/cws/article/news/2017/aug/01/
> could-extra-dimensions-be-detected-by-a-bose-einstein-condensate
>
>
>
> The paper referenced in this article could be drawing another duel between
> string theory and condensed matter physics.
>
>
>
> *String theory phenomenology and quantum many–body systems*
>
> Sergio Gutiérrez, Abel Camacho, Héctor Hernández
>
>
>
> arXiv:1707.07757 [gr-qc] <https://arxiv.org/abs/1707.07757>
>
>
>
> In the paper, the authors calculate how additional space-like dimensions
> affect a condensate of ultracold atoms, known as Bose-Einstein-Condensate.
> At such low temperatures, the atoms transition to a state where their
> quantum wave-function acts as one and the system begins to display quantum
> effects, such as interference, throughout.
>
>
> In the presence of extra-dimensions, every particle’s wave-function has
> higher harmonics because the extra-dimensions have to close up, in the
> simplest case like circles. The particle’s wave-functions have to fit into
> the extra dimensions, meaning their wave-length must be an integer fraction
> of the radius.
>
> It seems to me that all the conditions required to show the hidden
> dimensions expected by string theory are meet in condensed matter physics
> using the bosonic quasiparticle called the Surface Plasmon Polariton (SPP).
> This boson can form non-equilibrium Bose-Einstein condensates at room
> temperature and beyond.
>
>
>
> In “Oscillatory behavior of the specific heat at low temperature in
> quasiperiodic structures” E.L. Albuquerquea;*∗*, C.G. Bezerraa, P.W.
> Maurizb, M.S. Vasconcelos, a structure featuring 11 level discontinuity in
> specific heat as predicted by the Mexican paper is shown to exist.
>
&

RE: [Vo]:Discontinuous fractal based specific heat spectrum of SPP

[bobcook39...@hotmail.com]

Axil—

The following link has no figures and

1707.07757 [gr-qc]<https://arxiv.org/abs/1707.07757>

Are you sure it is the document you say has the figure with the fractal energy 
spectrum?

Bob Cook


From: Axil Axil<mailto:janap...@gmail.com>
Sent: Wednesday, August 2, 2017 5:36 PM
To: vortex-l<mailto:vortex-l@eskimo.com>
Subject: Re: [Vo]:Discontinuous fractal based specific heat spectrum of SPP

Figure 1 in arXiv:1707.07757 [gr-qc]<https://arxiv.org/abs/1707.07757> shows 
what a fractal energy spectrum would look like.

On page 367 and 368 it is explained, as energy is added to the system, that 
additional energy goes into filling the 11 energy levels from low orfer to 
higher order. For example, e1 to e2 then on the next level e4 to e4 then on the 
next level e5 to e6 and so on.

When a given energy level is completely filled, there is a discontinuous jump 
in specific heat to the next energy level which makes more room for more energy 
storage space.

As more energy is loaded into the SPP BEC, more energy storage space is created 
to accommodate that added energy. The specific heat of the BEC increases as 
energy  is added but with quantum like discontinuities up through 11 levels. 
These 11 levels correspond to the 11 dimensions required by string theory.

According to the Mexican paper,

arquivos.info.ufrn.br/arquivos/2009125149a1081961856e8a74678fd2/PhysicaA04.pdf<http://arquivos.info.ufrn.br/arquivos/2009125149a1081961856e8a74678fd2/PhysicaA04.pdf>

this energy filing mechanism represents how the hidden dimensions of string 
theory are utilized to handle the increasing amplitude of a particle's wave 
function as additional energy is added to that wave function.

When the energy of the wave function of the particle increases, the fundamental 
forces begin to converge as per grand unification.

In terms of LENR, the SPP BEC and a high energy particle both with increasing 
energy have the same Grand unification functionality as energy is added to each 
system.



On Wed, Aug 2, 2017 at 8:08 PM, 
bobcook39...@hotmail.com<mailto:bobcook39...@hotmail.com> 
<bobcook39...@hotmail.com<mailto:bobcook39...@hotmail.com>> wrote:
Axil—

Do you know of any examples of a “ complex fractal energy spectrum”.  That 
would help explain what such a spectrum is.

Bob Cook


From: Axil Axil<mailto:janap...@gmail.com>
Sent: Wednesday, August 2, 2017 8:42 AM
To: vortex-l<mailto:vortex-l@eskimo.com>
Subject: [Vo]:Discontinuous fractal based specific heat spectrum of SPP


http://physicsworld.com/cws/article/news/2017/aug/01/could-extra-dimensions-be-detected-by-a-bose-einstein-condensate



The paper referenced in this article could be drawing another duel between 
string theory and condensed matter physics.



String theory phenomenology and quantum many–body systems

Sergio Gutiérrez, Abel Camacho, Héctor Hernández



arXiv:1707.07757 [gr-qc]<https://arxiv.org/abs/1707.07757>



In the paper, the authors calculate how additional space-like dimensions affect 
a condensate of ultracold atoms, known as Bose-Einstein-Condensate. At such low 
temperatures, the atoms transition to a state where their quantum wave-function 
acts as one and the system begins to display quantum effects, such as 
interference, throughout.

In the presence of extra-dimensions, every particle’s wave-function has higher 
harmonics because the extra-dimensions have to close up, in the simplest case 
like circles. The particle’s wave-functions have to fit into the extra 
dimensions, meaning their wave-length must be an integer fraction of the radius.

It seems to me that all the conditions required to show the hidden dimensions 
expected by string theory are meet in condensed matter physics using the 
bosonic quasiparticle called the Surface Plasmon Polariton (SPP). This boson 
can form non-equilibrium Bose-Einstein condensates at room temperature and 
beyond.



In “Oscillatory behavior of the specific heat at low temperature in 
quasiperiodic structures” E.L. Albuquerquea;∗, C.G. Bezerraa, P.W. Maurizb, 
M.S. Vasconcelos, a structure featuring 11 level discontinuity in specific heat 
as predicted by the Mexican paper is shown to exist.



The behavior of a variety of particles or quasi-particles (electrons, phonons, 
photons, polaritons, magnons, etc.) has been and is currently being studied in 
quasi-periodic systems. A fascinating feature of these quasi-periodic 
structures is that they exhibit collective properties not shared by their 
constituent parts.



Furthermore, the long-range correlations induced by the construction of these 
systems are expected to be reflected to some degree in their various spectra, 
designing a novel description of disorder. A common factor shared by all these 
excitations is a complex fractal energy spectrum.



Could this discontinuous fractal based specific heat spectrum of SPPs be 
exposing the higher dimensions of reality as predicted by the Mexicans?

RE: [Vo]:Discontinuous fractal based specific heat spectrum of SPP

[bobcook39...@hotmail.com]

Axil—

Thanks.

That summary is instructive.

Bob Cook

From: Axil Axil<mailto:janap...@gmail.com>
Sent: Wednesday, August 2, 2017 5:36 PM
To: vortex-l<mailto:vortex-l@eskimo.com>
Subject: Re: [Vo]:Discontinuous fractal based specific heat spectrum of SPP

Figure 1 in arXiv:1707.07757 [gr-qc]<https://arxiv.org/abs/1707.07757> shows 
what a fractal energy spectrum would look like.

On page 367 and 368 it is explained, as energy is added to the system, that 
additional energy goes into filling the 11 energy levels from low orfer to 
higher order. For example, e1 to e2 then on the next level e4 to e4 then on the 
next level e5 to e6 and so on.

When a given energy level is completely filled, there is a discontinuous jump 
in specific heat to the next energy level which makes more room for more energy 
storage space.

As more energy is loaded into the SPP BEC, more energy storage space is created 
to accommodate that added energy. The specific heat of the BEC increases as 
energy  is added but with quantum like discontinuities up through 11 levels. 
These 11 levels correspond to the 11 dimensions required by string theory.

According to the Mexican paper,

arquivos.info.ufrn.br/arquivos/2009125149a1081961856e8a74678fd2/PhysicaA04.pdf<http://arquivos.info.ufrn.br/arquivos/2009125149a1081961856e8a74678fd2/PhysicaA04.pdf>

this energy filing mechanism represents how the hidden dimensions of string 
theory are utilized to handle the increasing amplitude of a particle's wave 
function as additional energy is added to that wave function.

When the energy of the wave function of the particle increases, the fundamental 
forces begin to converge as per grand unification.

In terms of LENR, the SPP BEC and a high energy particle both with increasing 
energy have the same Grand unification functionality as energy is added to each 
system.



On Wed, Aug 2, 2017 at 8:08 PM, 
bobcook39...@hotmail.com<mailto:bobcook39...@hotmail.com> 
<bobcook39...@hotmail.com<mailto:bobcook39...@hotmail.com>> wrote:
Axil—

Do you know of any examples of a “ complex fractal energy spectrum”.  That 
would help explain what such a spectrum is.

Bob Cook


From: Axil Axil<mailto:janap...@gmail.com>
Sent: Wednesday, August 2, 2017 8:42 AM
To: vortex-l<mailto:vortex-l@eskimo.com>
Subject: [Vo]:Discontinuous fractal based specific heat spectrum of SPP


http://physicsworld.com/cws/article/news/2017/aug/01/could-extra-dimensions-be-detected-by-a-bose-einstein-condensate



The paper referenced in this article could be drawing another duel between 
string theory and condensed matter physics.



String theory phenomenology and quantum many–body systems

Sergio Gutiérrez, Abel Camacho, Héctor Hernández



arXiv:1707.07757 [gr-qc]<https://arxiv.org/abs/1707.07757>



In the paper, the authors calculate how additional space-like dimensions affect 
a condensate of ultracold atoms, known as Bose-Einstein-Condensate. At such low 
temperatures, the atoms transition to a state where their quantum wave-function 
acts as one and the system begins to display quantum effects, such as 
interference, throughout.

In the presence of extra-dimensions, every particle’s wave-function has higher 
harmonics because the extra-dimensions have to close up, in the simplest case 
like circles. The particle’s wave-functions have to fit into the extra 
dimensions, meaning their wave-length must be an integer fraction of the radius.

It seems to me that all the conditions required to show the hidden dimensions 
expected by string theory are meet in condensed matter physics using the 
bosonic quasiparticle called the Surface Plasmon Polariton (SPP). This boson 
can form non-equilibrium Bose-Einstein condensates at room temperature and 
beyond.



In “Oscillatory behavior of the specific heat at low temperature in 
quasiperiodic structures” E.L. Albuquerquea;∗, C.G. Bezerraa, P.W. Maurizb, 
M.S. Vasconcelos, a structure featuring 11 level discontinuity in specific heat 
as predicted by the Mexican paper is shown to exist.



The behavior of a variety of particles or quasi-particles (electrons, phonons, 
photons, polaritons, magnons, etc.) has been and is currently being studied in 
quasi-periodic systems. A fascinating feature of these quasi-periodic 
structures is that they exhibit collective properties not shared by their 
constituent parts.



Furthermore, the long-range correlations induced by the construction of these 
systems are expected to be reflected to some degree in their various spectra, 
designing a novel description of disorder. A common factor shared by all these 
excitations is a complex fractal energy spectrum.



Could this discontinuous fractal based specific heat spectrum of SPPs be 
exposing the higher dimensions of reality as predicted by the Mexicans?

RE: [Vo]:Discontinuous fractal based specific heat spectrum of SPP

[bobcook39...@hotmail.com]

Axil—

IMHO your comments regarding a grand unified theory is right on.  The energy 
maintained by a coherent system can be divided into potential  energy and 
kinetic energy.

The potential energy is associated with electric and magnetic fields  and 
kinetic energy associated with motion of   massive particles within the 
confines of a coherent system.   The coherent system can be described by a 
single wave function.  Gravitational fields also must be considered as 
providing potential energy of the coherent system.

The EMG force is what begs a good quantitative physical model.  A.C.  Jessup 
proposed such a model in the late 1950.l

Angular  momentum is associated with the kinetic energy of the system  and is 
limited to
discrete quanta of angular momentum equal to  whole number multiples of Planks 
constant/2pi.

Coherent systems become more stable when potential energy is reduced and 
kinetic energy is increased and momentum conversation maintained  in the 
changed system or systems.  Free photons that manage to escape the coherent 
system constitute a new coherent system that shares in the 
distribution/conservation of energy and momentum.



From: Axil Axil<mailto:janap...@gmail.com>
Sent: Wednesday, August 2, 2017 12:41 PM
To: vortex-l<mailto:vortex-l@eskimo.com>
Subject: Re: [Vo]:Discontinuous fractal based specific heat spectrum of SPP


Grand unification of the forces of nature is an important concept in LENR 
because it can explain why the weak force seems to be strengthened in LENR 
where LENR ash comes out of LENR reactions stabilized as if the weak force has 
acted instantaneously to stabilize the products of nuclear activity.



The concept that grand unification of the forces of nature might also 
correspond to the establishment of a bose condinsate to expose the folded 
dimensions of strings to a quantum like energy filling process to activate a 
strengthened weak force inside the influence of that bose condinsate.



The energy of grand unification is not associated with a single particle but is 
marshaled as a shared resource of an aggregation of coherent identical 
particles.



When a nuclear event occurs within the province of the bose condinsate... a 
condinsate that has accumulated the required combined excitation energy shared 
among the members of its aggregate members, the weak force no longer functions 
as a separate force. In this condition, the excitation produced by the nuclear 
reaction is instantaneously relaxed into a stable configuration.



This concept explains why gamma radiation is sometimes seen in a very weak LENR 
system where energy pumping is not sufficient to power the development of a 
bose condinsate. But when the LENR system is robustly pumped with sufficient 
energy to keep the bose condinsate in place, no gamma radiation is detected.

On Wed, Aug 2, 2017 at 12:42 PM, Axil Axil 
<janap...@gmail.com<mailto:janap...@gmail.com>> wrote:

http://physicsworld.com/cws/article/news/2017/aug/01/could-extra-dimensions-be-detected-by-a-bose-einstein-condensate



The paper referenced in this article could be drawing another duel between 
string theory and condensed matter physics.



String theory phenomenology and quantum many–body systems

Sergio Gutiérrez, Abel Camacho, Héctor Hernández



arXiv:1707.07757 [gr-qc]<https://arxiv.org/abs/1707.07757>



In the paper, the authors calculate how additional space-like dimensions affect 
a condensate of ultracold atoms, known as Bose-Einstein-Condensate. At such low 
temperatures, the atoms transition to a state where their quantum wave-function 
acts as one and the system begins to display quantum effects, such as 
interference, throughout.

In the presence of extra-dimensions, every particle’s wave-function has higher 
harmonics because the extra-dimensions have to close up, in the simplest case 
like circles. The particle’s wave-functions have to fit into the extra 
dimensions, meaning their wave-length must be an integer fraction of the radius.

It seems to me that all the conditions required to show the hidden dimensions 
expected by string theory are meet in condensed matter physics using the 
bosonic quasiparticle called the Surface Plasmon Polariton (SPP). This boson 
can form non-equilibrium Bose-Einstein condensates at room temperature and 
beyond.



In “Oscillatory behavior of the specific heat at low temperature in 
quasiperiodic structures” E.L. Albuquerquea;∗, C.G. Bezerraa, P.W. Maurizb, 
M.S. Vasconcelos, a structure featuring 11 level discontinuity in specific heat 
as predicted by the Mexican paper is shown to exist.



The behavior of a variety of particles or quasi-particles (electrons, phonons, 
photons, polaritons, magnons, etc.) has been and is currently being studied in 
quasi-periodic systems. A fascinating feature of these quasi-periodic 
structures is that they exhibit collective properties not shared by their 
constituent parts.



Furthermore, the l

Re: [Vo]:Discontinuous fractal based specific heat spectrum of SPP

[Axil Axil]

Figure 1 in arXiv:1707.07757 [gr-qc] <https://arxiv.org/abs/1707.07757> shows
what a fractal energy spectrum would look like.

On page 367 and 368 it is explained, as energy is added to the system, that
additional energy goes into filling the 11 energy levels from low orfer to
higher order. For example, e1 to e2 then on the next level e4 to e4 then on
the next level e5 to e6 and so on.

When a given energy level is completely filled, there is a discontinuous
jump in specific heat to the next energy level which makes more room for
more energy storage space.

As more energy is loaded into the SPP BEC, more energy storage space is
created to accommodate that added energy. The specific heat of the BEC
increases as energy  is added but with quantum like discontinuities up
through 11 levels. These 11 levels correspond to the 11 dimensions required
by string theory.

According to the Mexican paper,

arquivos.info.ufrn.br/arquivos/2009125149a1081961856e8a74678fd2/PhysicaA04.pdf

this energy filing mechanism represents how the hidden dimensions of string
theory are utilized to handle the increasing amplitude of a particle's wave
function as additional energy is added to that wave function.

When the energy of the wave function of the particle increases, the
fundamental forces begin to converge as per grand unification.

In terms of LENR, the SPP BEC and a high energy particle both with
increasing energy have the same Grand unification functionality as energy
is added to each system.



On Wed, Aug 2, 2017 at 8:08 PM, bobcook39...@hotmail.com <
bobcook39...@hotmail.com> wrote:

> Axil—
>
>
>
> Do you know of any examples of a “ complex fractal energy spectrum”.
> That would help explain what such a spectrum is.
>
>
>
> Bob Cook
>
>
>
>
>
> *From: *Axil Axil <janap...@gmail.com>
> *Sent: *Wednesday, August 2, 2017 8:42 AM
> *To: *vortex-l <vortex-l@eskimo.com>
> *Subject: *[Vo]:Discontinuous fractal based specific heat spectrum of SPP
>
>
>
> http://physicsworld.com/cws/article/news/2017/aug/01/
> could-extra-dimensions-be-detected-by-a-bose-einstein-condensate
>
>
>
> The paper referenced in this article could be drawing another duel between
> string theory and condensed matter physics.
>
>
>
> *String theory phenomenology and quantum many–body systems*
>
> Sergio Gutiérrez, Abel Camacho, Héctor Hernández
>
>
>
> arXiv:1707.07757 [gr-qc] <https://arxiv.org/abs/1707.07757>
>
>
>
> In the paper, the authors calculate how additional space-like dimensions
> affect a condensate of ultracold atoms, known as Bose-Einstein-Condensate.
> At such low temperatures, the atoms transition to a state where their
> quantum wave-function acts as one and the system begins to display quantum
> effects, such as interference, throughout.
>
>
> In the presence of extra-dimensions, every particle’s wave-function has
> higher harmonics because the extra-dimensions have to close up, in the
> simplest case like circles. The particle’s wave-functions have to fit into
> the extra dimensions, meaning their wave-length must be an integer fraction
> of the radius.
>
> It seems to me that all the conditions required to show the hidden
> dimensions expected by string theory are meet in condensed matter physics
> using the bosonic quasiparticle called the Surface Plasmon Polariton (SPP).
> This boson can form non-equilibrium Bose-Einstein condensates at room
> temperature and beyond.
>
>
>
> In “Oscillatory behavior of the specific heat at low temperature in
> quasiperiodic structures” E.L. Albuquerquea;*∗*, C.G. Bezerraa, P.W.
> Maurizb, M.S. Vasconcelos, a structure featuring 11 level discontinuity in
> specific heat as predicted by the Mexican paper is shown to exist.
>
>
>
> The behavior of a variety of particles or quasi-particles (electrons,
> phonons, photons, polaritons, magnons, etc.) has been and is currently
> being studied in quasi-periodic systems. A fascinating feature of these
> quasi-periodic structures is that they exhibit collective properties not
> shared by their constituent parts.
>
>
>
> Furthermore, the long-range correlations induced by the construction of
> these systems are expected to be reflected to some degree in their various
> spectra, designing a novel description of disorder. A common factor shared
> by all these excitations is a complex fractal energy spectrum.
>
>
>
> Could this discontinuous fractal based specific heat spectrum of SPPs be
> exposing the higher dimensions of reality as predicted by the Mexicans?
>
>
>

RE: [Vo]:Discontinuous fractal based specific heat spectrum of SPP

[bobcook39...@hotmail.com]

Axil—

Do you know of any examples of a “ complex fractal energy spectrum”.  That 
would help explain what such a spectrum is.

Bob Cook


From: Axil Axil<mailto:janap...@gmail.com>
Sent: Wednesday, August 2, 2017 8:42 AM
To: vortex-l<mailto:vortex-l@eskimo.com>
Subject: [Vo]:Discontinuous fractal based specific heat spectrum of SPP


http://physicsworld.com/cws/article/news/2017/aug/01/could-extra-dimensions-be-detected-by-a-bose-einstein-condensate



The paper referenced in this article could be drawing another duel between 
string theory and condensed matter physics.



String theory phenomenology and quantum many–body systems

Sergio Gutiérrez, Abel Camacho, Héctor Hernández



arXiv:1707.07757 [gr-qc]<https://arxiv.org/abs/1707.07757>



In the paper, the authors calculate how additional space-like dimensions affect 
a condensate of ultracold atoms, known as Bose-Einstein-Condensate. At such low 
temperatures, the atoms transition to a state where their quantum wave-function 
acts as one and the system begins to display quantum effects, such as 
interference, throughout.

In the presence of extra-dimensions, every particle’s wave-function has higher 
harmonics because the extra-dimensions have to close up, in the simplest case 
like circles. The particle’s wave-functions have to fit into the extra 
dimensions, meaning their wave-length must be an integer fraction of the radius.

It seems to me that all the conditions required to show the hidden dimensions 
expected by string theory are meet in condensed matter physics using the 
bosonic quasiparticle called the Surface Plasmon Polariton (SPP). This boson 
can form non-equilibrium Bose-Einstein condensates at room temperature and 
beyond.



In “Oscillatory behavior of the specific heat at low temperature in 
quasiperiodic structures” E.L. Albuquerquea;∗, C.G. Bezerraa, P.W. Maurizb, 
M.S. Vasconcelos, a structure featuring 11 level discontinuity in specific heat 
as predicted by the Mexican paper is shown to exist.



The behavior of a variety of particles or quasi-particles (electrons, phonons, 
photons, polaritons, magnons, etc.) has been and is currently being studied in 
quasi-periodic systems. A fascinating feature of these quasi-periodic 
structures is that they exhibit collective properties not shared by their 
constituent parts.



Furthermore, the long-range correlations induced by the construction of these 
systems are expected to be reflected to some degree in their various spectra, 
designing a novel description of disorder. A common factor shared by all these 
excitations is a complex fractal energy spectrum.



Could this discontinuous fractal based specific heat spectrum of SPPs be 
exposing the higher dimensions of reality as predicted by the Mexicans?

Re: [Vo]:Discontinuous fractal based specific heat spectrum of SPP

[Axil Axil]

Grand unification of the forces of nature is an important concept in LENR
because it can explain why the weak force seems to be strengthened in LENR
where LENR ash comes out of LENR reactions stabilized as if the weak force
has acted instantaneously to stabilize the products of nuclear activity.


The concept that grand unification of the forces of nature might also
correspond to the establishment of a bose condinsate to expose the folded
dimensions of strings to a quantum like energy filling process to activate
a strengthened weak force inside the influence of that bose condinsate.


The energy of grand unification is not associated with a single particle
but is marshaled as a shared resource of an aggregation of coherent
identical particles.


When a nuclear event occurs within the province of the bose condinsate... a
condinsate that has accumulated the required combined excitation energy
shared among the members of its aggregate members, the weak force no longer
functions as a separate force. In this condition, the excitation produced
by the nuclear reaction is instantaneously relaxed into a stable
configuration.


This concept explains why gamma radiation is sometimes seen in a very weak
LENR system where energy pumping is not sufficient to power the development
of a bose condinsate. But when the LENR system is robustly pumped with
sufficient energy to keep the bose condinsate in place, no gamma radiation
is detected.

On Wed, Aug 2, 2017 at 12:42 PM, Axil Axil  wrote:

> http://physicsworld.com/cws/article/news/2017/aug/01/
> could-extra-dimensions-be-detected-by-a-bose-einstein-condensate
>
>
> The paper referenced in this article could be drawing another duel between
> string theory and condensed matter physics.
>
>
> String theory phenomenology and quantum many–body systems
>
> Sergio Gutiérrez, Abel Camacho, Héctor Hernández
>
>
> arXiv:1707.07757 [gr-qc] 
>
>
> In the paper, the authors calculate how additional space-like dimensions
> affect a condensate of ultracold atoms, known as Bose-Einstein-Condensate.
> At such low temperatures, the atoms transition to a state where their
> quantum wave-function acts as one and the system begins to display quantum
> effects, such as interference, throughout.
>
>
> In the presence of extra-dimensions, every particle’s wave-function has
> higher harmonics because the extra-dimensions have to close up, in the
> simplest case like circles. The particle’s wave-functions have to fit into
> the extra dimensions, meaning their wave-length must be an integer fraction
> of the radius.
>
> It seems to me that all the conditions required to show the hidden
> dimensions expected by string theory are meet in condensed matter physics
> using the bosonic quasiparticle called the Surface Plasmon Polariton (SPP).
> This boson can form non-equilibrium Bose-Einstein condensates at room
> temperature and beyond.
>
>
> In “Oscillatory behavior of the specific heat at low temperature in
> quasiperiodic structures” E.L. Albuquerquea;*∗*, C.G. Bezerraa, P.W.
> Maurizb, M.S. Vasconcelos, a structure featuring 11 level discontinuity in
> specific heat as predicted by the Mexican paper is shown to exist.
>
>
> The behavior of a variety of particles or quasi-particles (electrons,
> phonons, photons, polaritons, magnons, etc.) has been and is currently
> being studied in quasi-periodic systems. A fascinating feature of these
> quasi-periodic structures is that they exhibit collective properties not
> shared by their constituent parts.
>
>
> Furthermore, the long-range correlations induced by the construction of
> these systems are expected to be reflected to some degree in their various
> spectra, designing a novel description of disorder. A common factor shared
> by all these excitations is a complex fractal energy spectrum.
>
>
> Could this discontinuous fractal based specific heat spectrum of SPPs be
> exposing the higher dimensions of reality as predicted by the Mexicans?
>

[Vo]:Discontinuous fractal based specific heat spectrum of SPP

[Axil Axil]

http://physicsworld.com/cws/article/news/2017/aug/01/could-extra-dimensions-be-detected-by-a-bose-einstein-condensate


The paper referenced in this article could be drawing another duel between
string theory and condensed matter physics.


String theory phenomenology and quantum many–body systems

Sergio Gutiérrez, Abel Camacho, Héctor Hernández


arXiv:1707.07757 [gr-qc] 


In the paper, the authors calculate how additional space-like dimensions
affect a condensate of ultracold atoms, known as Bose-Einstein-Condensate.
At such low temperatures, the atoms transition to a state where their
quantum wave-function acts as one and the system begins to display quantum
effects, such as interference, throughout.


In the presence of extra-dimensions, every particle’s wave-function has
higher harmonics because the extra-dimensions have to close up, in the
simplest case like circles. The particle’s wave-functions have to fit into
the extra dimensions, meaning their wave-length must be an integer fraction
of the radius.

It seems to me that all the conditions required to show the hidden
dimensions expected by string theory are meet in condensed matter physics
using the bosonic quasiparticle called the Surface Plasmon Polariton (SPP).
This boson can form non-equilibrium Bose-Einstein condensates at room
temperature and beyond.


In “Oscillatory behavior of the specific heat at low temperature in
quasiperiodic structures” E.L. Albuquerquea;*∗*, C.G. Bezerraa, P.W.
Maurizb, M.S. Vasconcelos, a structure featuring 11 level discontinuity in
specific heat as predicted by the Mexican paper is shown to exist.


The behavior of a variety of particles or quasi-particles (electrons,
phonons, photons, polaritons, magnons, etc.) has been and is currently
being studied in quasi-periodic systems. A fascinating feature of these
quasi-periodic structures is that they exhibit collective properties not
shared by their constituent parts.


Furthermore, the long-range correlations induced by the construction of
these systems are expected to be reflected to some degree in their various
spectra, designing a novel description of disorder. A common factor shared
by all these excitations is a complex fractal energy spectrum.


Could this discontinuous fractal based specific heat spectrum of SPPs be
exposing the higher dimensions of reality as predicted by the Mexicans?