Bah, the link isn't working because my website is having technical issues now.. please be patient.
A first attempt at Unifying LENR Theoretical models.
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Bah, the link isn't working because my website is having technical issues now.. please be patient.
I was able to read it without problem, and now reloaded it without issue. Perhaps was a temporary glitch.
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Hey everyone,
Here
Unified LENR Theory: Mathematical Models and Frameworks is a link to a new research article based on the development of LENR ARA
This is the first attempt at bridging the theoretical models with each other and laying out a framework that can make accurate predictions for the LENR Phenomena.
As always, your feedback and critical review is appreciated.
Warm regards,Diadon
Gentlemen! We, like the seven Indian blind sages, touch the elephant: some are the trunk, some are the tusks, some are the legs, some are the tail, and so on. Accordingly, everyone describes their part of the elephant in the form of their theory or experiment. Everyone is right in their own way, but everyone is wrong together.
This means that the general paradigm of our knowledge is incorrect. It is necessary not to unite theories after the fact, but to first unite our World (that is, the elephant), and then jointly describe our World in a new paradigm using one common theory. This also applies to such an urgent scientific problem as cold nuclear fusion and a new source of energy.
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If your website is working, would you please repost the link to theories.
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If your website is working, would you please repost the link to theories.
It doesn't seem to be playing nicely with people who view in 'dark mode' on there web browser.
So I have attached a PDF version of the first draft.
Any feedback is appreciated and collaboration is greatly appreciated. -
Rather than Hagelstein phonons don't forget Dubinko's postulates.
It doesn't seem to be playing nicely with people who view in 'dark mode' on there web browser.
So I have attached a PDF version of the first draft.
Any feedback is appreciated and collaboration is greatly appreciated. -
I do enjoy his postulates, especially the concept of anharmonic oscillations that mediate nuclear reactions he calls "discrete breathers" and his suggestion to enhance the reactions using quasi-crystalline lattice structures.
Unfortunately, Klee Irwin is quite savvy at copywrite restrictions and securing intellectual property.
So it appears I am unable to include Dubinko's work without special permission. -
There are several Dubinko papers in Jed's library. There is no reason not to link to them, or make quotes.
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There are several Dubinko papers in Jed's library. There is no reason not to link to them, or make quotes.
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A charge cluster would have an overall charge of Q. Since, the charge cluster has more electrons than anions, Q is negative. Hence, the force on a test charge q which is also negative is given by coulomb law. Since voltage (E) is force per electron charge F/q, the formula for voltage on an electron forced to escape the charge cluster is
E = keQ/r
However, in the pre-print the equation listed as the potential for an EVO has Q squared. I think it should be corrected. Further whatever force is holding the EVO together also has a potential. So, the true potential at any radius is the sum of the two forces.
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There are several Dubinko papers in Jed's library. There is no reason not to link to them, or make quotes.
Yes, there is a lot of fantastic work there by Dubinko.
However, they are Quasi-crystalline specific and are not entirely practical at this stage of the ULT paper.
I think his work is highly useful for experimental applications and computational modeling of materials.
Again, this leads to some legal issues with IP in using LENR ARA and I would need to get permission before I could proceed incorporating there raw or processed data sets, which to my knowledge is not open to the public still?[…]
I don't have access to the latest paper they published titled,
"GENERATION OF ACCELERATED PARTICLES IN SOLID MATRICES SATURATED WITH ISOTOPES OF LIGHT NUCLEI"
So you if you or anyone you know has access to the full paper it would be greatly appreciated.
Please allow me some time and have patience, my mathematics are not world class, but rather mediocre at best.
I'm only in the theoretical modeling game out of what seems like a necessity in an attempt to get some of these brilliant minds to work together, if at all possible. 😅
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https://www.vant.kipt.kharkov.ua/ARTICLE/VANT_2023_6/article_2023_6_18.pdf
it exists also this video to summarize his ideas.
External Content www.youtube.comContent embedded from external sources will not be displayed without your consent.Through the activation of external content, you agree that personal data may be transferred to third party platforms. We have provided more information on this in our privacy policy.Yes, there is a lot of fantastic work there by Dubinko.
However, they are Quasi-crystalline specific and are not entirely practical at this stage of the ULT paper.
I think his work is highly useful for experimental applications and computational modeling of materials.
Again, this leads to some legal issues with IP in using LENR ARA and I would need to get permission before I could proceed incorporating there raw or processed data sets, which to my knowledge is not open to the public still?I don't have access to the latest paper they published titled,
"GENERATION OF ACCELERATED PARTICLES IN SOLID MATRICES SATURATED WITH ISOTOPES OF LIGHT NUCLEI"
So you if you or anyone you know has access to the full paper it would be greatly appreciated.
Please allow me some time and have patience, my mathematics are not world class, but rather mediocre at best.
I'm only in the theoretical modeling game out of what seems like a necessity in an attempt to get some of these brilliant minds to work together, if at all possible. 😅
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A charge cluster would have an overall charge of Q. Since, the charge cluster has more electrons than anions, Q is negative. Hence, the force on a test charge q which is also negative is given by coulomb law. Since voltage (E) is force per electron charge F/q, the formula for voltage on an electron forced to escape the charge cluster is
E = keQ/r
The equation is as found on the internet. Electric potential - Wikipedia
The larger the cluster of electrons the greater the potential energy of an electron forced to escape the charge cluster. A sufficiently high voltage electron can cause photoneutrons. Photoneutrons - an overview | ScienceDirect Topics
The photoproduction of neutrons is a key step in sequence of elementary reactions steps that explain a data derived a cluster catalyzed balanced nuclear reaction equation.
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The equation is as found on the internet. Electric potential - Wikipedia
The larger the cluster of electrons the greater the potential energy of an electron forced to escape the charge cluster. A sufficiently high voltage electron can cause photoneutrons. Photoneutrons - an overview | ScienceDirect Topics
The photoproduction of neutrons is a key step in sequence of elementary reactions steps that explain a data derived a cluster catalyzed balanced nuclear reaction equation.
This postulate does seem to have some very profound implications in our current scientific paradigm doesn't it?
There may be some rough waters ahead as one boards that ship of hypotheticals.
Luckily for me, I don't have any hope for tenure or a formal academic reputation to restrict me from exploring these topics.
However, it is likely people will take me less seriously as well.
Ilyen az élet! 😉 -
There are several Dubinko papers in Jed's library. There is no reason not to link to them, or make quotes.
I have no idea what to make of Dubinko, but I am going to upload another paper by him in a few days:
Dubinko, V.I. and F. Piazza, On the role of disorder in catalysis driven by discrete breathers. Lett. on Mater., 2014. 4(4): p. 273-278.
Abstract
A new mechanism of catalysis is discussed, which is based on the rate-promoting effect of large-amplitude anharmonic lattice vibrations, a.k.a. intrinsic localized modes or ‘discrete breathers’ (DBs), which can excite atoms at specific ‘active sites’ rather strongly, giving them energy far exceeding the energy of thermal vibrations for hundreds of oscillation periods. The DB-induced modulation of activation energies (free energy barriers between reactants and products) results in a drastic amplification of the reaction rates, which can be described by a simple analytical expression in the adiabatic limit. The striking site selectiveness of DB excitation dynamics in the presence of spatial (quenched) disorder makes these nonlinear vibrations viable candidates to play the role of ‘active modes’ in the catalytic process in various physical, chemical and biological systems.
I will upload 87 new papers Real Soon Now.
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That took less time than I expected.
Dubinko, V.I. and F. Piazza, On the role of disorder in catalysis driven by discrete breathers. Lett. on Mater., 2014. 4(4): p. 273-278.
https://lenr-canr.org/acrobat/DubinkoVIontheroleo.pdf
The final number was 85 new papers.
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I have no idea what to make of Dubinko, but I am going to upload another paper by him in a few days:
I know him pretty well. Good mathematician, Russian-speaking Ukranian, very ambitious but also very single-minded, though they often go together. A bit like Dr Swartz in many ways.
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On my side, i never meet and never have been in relation with him but i know what his work involves.
I know him pretty well. Good mathematician, Russian-speaking Ukranian, very ambitious but also very single-minded, though they often go together. A bit like Dr Swartz in many ways.
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