Jones, Don’t see any mention in your ref of an electron being a dipole-like entity.. so not sure how related our thoughts are on this???
No time to dive down any rabbit holes with ya, but can perhaps help find some! ;-) The C-screening caught my eye on this paper… Coulomb screening of 2D massive Dirac fermions http://iopscience.iop.org/1402-4896/83/3/035002 “A model of 2D massive Dirac fermions, interacting with instantaneous 1/r Coulomb interaction, is presented in order to mimic the physics of gapped graphene. The static polarization function is calculated explicitly to analyze the screening effect at finite temperature and density. The results are compared with the massless case. We also show that various results in other works can be reproduced with our model in a straightforward and unified manner.” -mark _____________________________________________ From: Jones Beene [mailto:[email protected]] Sent: Tuesday, June 24, 2014 2:31 PM To: [email protected] Subject: RE: [Vo]:Excitonic Collapse as the proximate cause of gain in LENR Mark, I like the sound of this but it is difficult to imagine the details as applied to LENR unless there is a TDS material involving nickel oxide or something similar. There could be since nickel oxide is so unusual in its physical properties. Here is a similar paper from the one you cited with a different TDS. http://www.sciencemag.org/content/343/6173/864.short _____________________________________________ From: MarkI-ZeroPoint Jones, I posit that Hotson’s sea of ‘negative’ energy is simply the opposing side of the electron’s dipole-like oscillation of the vacuum… I posted an article on 5/18 which is yet more evidence that the electron is at least in line with my hypothesis: "The resulting data revealed each electron as two cones oriented opposite each other that converge at a point, ." https://www.mail-archive.com/[email protected]/msg93678.html -Mark _____________________________________________ From: Jones Beene Subject: [Vo]:Excitonic Collapse as the proximate cause of gain in LENR An article turned up (“before its time”, literally) in Journal of Electroanalytical Chemistry, Volume 727, 1 August 2014, Pages 53–58 which could have relevance to LENR insofar as understanding the mechanics for gain in some types of experiments – especially those where significant local voltage fluctuations exist, since the voltage swings can be a function of SPP formation or decay. http://www.sciencedirect.com/science/article/pii/S1572665714002276 “Electrochemical supercapacitor behavior of α-Ni(OH)2 nanoparticles…” by Vijayakumar and Muralidharan. The authors claim that Ni(OH)2 nanoparticles exhibit specific capacitance of over 500 F g−1 (paywall prohibits more detail).
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