Axil, WOW! Great citation - didn't realize these questions are now partially answered - Rydberg d[1] and inverted d[-1] are pretty much permanent when formed. Exist in the defects, on the surface AND in the lattice.. only half way thru reading but this really helps! Are you suggesting these inverted Rydberg are acting like electrons around normal protons or deuterons in a lattice instead of a molecular bond? Would that still come close to Mills predicted spectrum that the Thermacore report mentions? Thanks Fran
From: Axil Axil [mailto:janap...@gmail.com] Sent: Thursday, July 11, 2013 10:43 AM To: vortex-l Subject: EXTERNAL: Re: [Vo]:Potassium Carbonate http://arxiv.org/pdf/1305.5194v1.pdf Extension of many-electron theory and approximate density functionals to fractional charges and fractional spins An explanation for electrons with fractional charges and fractional spins? The collective interactions of electrons in condensed matter is hard to observe and understand, but progress is being made. Could 'hydrinos' be a result of this multi-electron theory describing fractional-charge and fractional-spin systems? Could 'hydrinos' be a misinterpretation of experimental observations of electrons in condensed matter? Could 'hydrinos' be electrons as quasi-particles in quasi-orbtals? On Thu, Jul 11, 2013 at 9:48 AM, Roarty, Francis X <francis.x.roa...@lmco.com<mailto:francis.x.roa...@lmco.com>> wrote: Charles, Jones Beene often reiterates the importance of Thermacore with citations and I would be surprised if he hasn't mentioned this one specifically, The report does support a molecular form of hydrogen [hydrino] and it places it still detectable via spectrpscopy on the surface of Ni cathode used in electrolysis of K2CO3. It remains unknown if the "hydrino" is still in situ or if the molecule can exit the geometry and remain intact..and if so does it reside in a vacancy like a hydrogen proton in the lattice or does it become squeezed out? Does the lattice structure reinforce the novel structure or expel it? Fran The electron of the hydrogen atom is predicted by Mills to transition to fractional energy levels releasing energy when contacting an energy sink resonant with the hydrogen energy released. The "ash" of the process is the "shrunken" hydrogen atom called a hydrino. Lehigh University (Dr. A. Miller), Bethlehem, PA, using ESCA (Electron Spectroscopy for Chemical Analysis)'6' has found the hydrino molecule absorbed on the surface of nickel cathodes used in electrolysis of K2CO3. This work shows a peak near 55 eV which is predicted by Mill's to be the binding energy of the electron for a hydrino molecule. Lehigh's exhaustive evaluations have found no other explanation for this peak. From: Charles Francis [mailto:fran...@datacomm.ch<mailto:fran...@datacomm.ch>] Sent: Thursday, July 11, 2013 5:30 AM To: vortex-l@eskimo.com<mailto:vortex-l@eskimo.com> Subject: EXTERNAL: [Vo]:Potassium Carbonate Likely this has been discussed on list before, but here goes: Concerning his recent patent update, Andrea Rossi apparently removed claims to the catalyst (re: the Cat in E-Cat) and it was suggested that this might have to do with prior use of his secret ingredient (i.e., perhaps he borrowed the recipe from elsewhere or inadvertently rediscovered it). I just noticed that anomalous heat production from Potassium Carbonate in combination with atomic hydrogen and nickel is mentioned in this unclassified 1994 military report: http://www.lenr-canr.org/acrobat/GernertNnascenthyd.pdf (the authors, incidentally, seem to be those today linked with BlackLight Power) Moreover, purportedly leaked notes from a 2012 Defkalion visit again mention Potassium Carbonate: http://ecatnews.com/wp-content/uploads/2012/10/Summary-of-Visit-to-Defkalion.pdf So is Potassium Carbonate used in the Rossi/Defkalion devices? And is powdering nickel sufficiently innovative to be protected by a Rossi patent? Would the Potassium Carbonate/Nickel/Hydrogen combination for energy production be under patent somewhere else or is it in the public domain? Charles