Dan, Re the energy scale, This is why I think a Zero point phenomena is involved... a bootstrap mechanism like the MAHG where a reversible reaction is powered by ZPE to accumulate into the NAE under discussion. Disassociation threshold discount so large [OU] that it wants to run away but heat sinking the device enough to not only prevent destruction but to reassociate the gas population back to an optimum mix of atoms /molecules. If this equivalent acceleration is relativistic as proposed then we may be looking at a method to exploit Lorentzian like contraction where a molecule forms or reaction occurs at one level in a gravity hill [warp] and then is reversed after being pushed into a different level by gas motion.. a crack in the COE rule that ZPE / gas motion is unusable, chaotic, self cancelling. I do base this theory on the dynamic forces of constrictive suppression geometry acting differently upon atoms vs molecules such that atoms are segregated from molecules discounting the energy needed to disassociate them to the point of OU ..in a counter intuitive way this would slow itself down once the plasma gets too hot and would require careful heat sinking to keep the plasma right on top of the threshold point. Whether this violates the 2nd law of concentration becomes debatable because locally the reaction and reversal reaction have to occur at different geometries to produce the effect.. It may appear to be a single "hot spot" from our perspective and scale but if dynamic Casimir suppression is involved as I am proposing then it is by definition not concentrated in one spot. Fran
From: Daniel Rocha [mailto:[email protected]] Sent: Thursday, May 16, 2013 2:29 AM To: John Milstone Subject: EXTERNAL: Re: [Vo]:'Slow' arcing electrons can gain relativistic mass Axil, I hope you just notice that the energy scale at which these phenomena occur are puny in comparison to what is needed for fusion. 2013/5/16 Axil Axil <[email protected]<mailto:[email protected]>> Dear Ed: http://www.google.com/url?sa=t&rct=j&q=&esrc=s&frm=1&source=web&cd=2&cad=rja&ved=0CDQQFjAB&url=http%3A%2F%2Fwww.phy-astr.gsu.edu%2Fstockman%2Fdata%2FStockman_Phys_Today_2011_Physics_behind_Applications.pdf&ei=KWKUUd2bMe610AHSy4CQBQ&usg=AFQjCNHdcmFaRe9tfcLMzk1V8uwPQ8OvXA&sig2=BHsFSNJUGxJ8Cs9T3pBlJA&bvm=bv.46471029,d.dmQ A primer on Nanoplasmonics. The concentration mechanism is a resonant constructive interference process called Fano interference discovered a few years ago. It produces the "hot spot", which is the most significant and exciting process in Nanoplasmonics. Much current research into hot spots is currently underway. Laser light is used to produce dipole vibrations in the nanoparticles. A Laser only produces plain waves and excites dipole excitation poorly. The lattice of a metal produces dipole vibrations in the deep infrared far better than a laser ever can. The Ni/H reactor couples heat with surface electrons to produce polaritons at high efficiency and then the nano-particles concentrate the EMF in extreme concentrations. -- Daniel Rocha - RJ [email protected]<mailto:[email protected]>
