I'm so embarrassed. It was a typo. BCSNF. It pops right up in the search.
Roseanna Roseannadanna: Never Mind https://www.google.com/imgres?imgurl=https%3A%2F%2Fs-media-cache-ak0.pinimg.com%2F736x%2Fab%2Fb3%2F90%2Fabb39060e3e4b92a17aa9ead62137baf.jpg&imgrefurl=https%3A%2F%2Fwww.pinterest.com%2Flisasunshinegrl%2Fgilda-radner-from-snl%2F&docid=algLkuaucCL2RM&tbnid=JHTmomKhjv8viM%3A&vet=10ahUKEwjF-dLy6bvUAhXj6oMKHdURD1kQMwhGKA0wDQ..i&w=500&h=500&hl=en&bih=616&biw=1149&q=rosanna%20rosannadanna%20never%20mind&ved=0ahUKEwjF-dLy6bvUAhXj6oMKHdURD1kQMwhGKA0wDQ&iact=mrc&uact=8 On Tue, Jun 13, 2017 at 2:57 PM, Kevin O'Malley <[email protected]> wrote: > I did a search for BCNSF and it came up with nothing. But yet, here it > is. > > On Tue, Jul 30, 2013 at 9:45 AM, Axil Axil <[email protected]> wrote: > >> *http://coldfusionnow.org/iccf-18-day-5-presentations-and-awards/ >> <http://coldfusionnow.org/iccf-18-day-5-presentations-and-awards/>* >> >> >> >> *ICCF-18 Day 5: Presentations and Awards >> <http://coldfusionnow.org/iccf-18-day-5-presentations-and-awards/>* >> >> >> >> *An excerpt from the reference.* >> >> >> >> >> >> *Theoretical Analysis and Reaction Mechanisms for Experimental Results of >> Hydrogen-Nickel Systems presented by Yeong Kim was anticipated because of >> his recent collaboration with Defkalion Green Technologies, who beamed in a >> video of their demonstration of the R-5 reactor in Milan on Tuesday.* >> >> >> >> *The Hyperion reactor contains a core of nickel metal foam. Heating the >> system to 180 C – 849 C, the Hyperion is then triggered, after which the >> magnetic field rose 0.6 to 1.6 Tesla.* >> >> >> >> *Kim says, “This indicates that LENRs are producing very strong electric >> fields E, currents I, and magnetic fields B.”* >> >> >> >> *ICCF-18fKim reported Defkalion tests produced excess heat only with the >> even isotopes of Ni (58, 60, 62, and 64), whereas odd isotopes do not >> produce excess heat (61).* >> >> >> >> *No gammas outside of 50 keV to 300 keV were detected from the Hyperion. * >> >> >> >> *Graphs were shown of an excess heat run, and a control run, where the >> data showed the power can be cut-off at will, revealing the ability to >> control the reaction.* >> >> >> >> *Kim then began to describe his theoretical explanation of the data. He >> speculated that in the Fleischmann-Pons Effect (FPE), two deuterons making >> a Helium-4 require a symmetric release of energy, to conserve total >> momentum.* >> >> >> >> *For two-particles exiting the reaction, his model shows lower >> probability.* >> >> >> >> *“The problem is solved”, says Kim, and he is willing to talk to other >> theorists to help convince them.* >> >> >> >> *He then described Boson Cluster-State Nuclear Fusion (BCSNF) generalized >> to include Hydrogen-Metal Systems. While there are still some unknowns, >> namely the S-factor representing the nuclear force strength, and the >> probability of the Boson Cluster State (BCS), the predicted reaction rates >> can be compared with the experimental reaction rates.* >> >> >> >> *Kim speculated that the magnetic fields generated by the triggering >> could provide magnetic alignments of Nickel atoms, and these could provide >> localized magnetic trap (LMT) potentials for Boson clusters on the surface >> of Ni powders, though these traps have short lifetimes.* >> >> >> >> *It is Rydberg atoms that then form the BEC cluster state.* >> >> >> >> *“H and Ni powders triggered by glow discharge created a magnetic field >> causing Rydberg states allowing nano-scale localized magnetic traps, >> allowing Hydrogen Boson Cluster States in the LMT on the Ni surfaces. >> Fusion between these elements create excess heat and locally produced glow >> discharges.”* >> >> >> >> *Kim writes, “Transmutation reactions involving Ni isotopes may not be >> dominant reaction mechanism but could be part of much weaker secondary >> reaction.”* >> >> >> >> *Kim believes that self-sustaining reactions could be improved by >> increasing the deuterium density, and this will be tested with Hyperion R-6 >> reactor with the on-line real-time mass spectrometer at Defkalion Lab. * >> >> >> >> *1% of Defkalion revenue will be spent on basic scientific research. >> Moving forward, Defkalion will be cooperating with National Instruments, as >> well.* >> >> >> >> >> *--------------------------------------------------------------------------------------* >> >> >> >> *IMHO, Boson Cluster-State Nuclear Fusion (BCSNF) is a Nanoplasmonic >> process.* >> >> >> >> *I do not agree with Kim that BEC is the primary LENR mechanism. It is >> instead a epiphenomenon (plural - epiphenomena) or a secondary phenomenon >> that occurs alongside or in parallel to a primary phenomenon.* >> >> >> >> *An epiphenomenon can be an effect of primary phenomena, but cannot >> affect a primary phenomenon.* >> >> >> >> *In the field of complex systems, the term epiphenomenon tends to be used >> interchangeably with "emergent effect".* >> >> >> >> *----------------------------------------------------* >> >> >> >> *In the E-cat, the polariton formation process allows for the formation >> of EMF solitons as separate unconnected units at low temperatures. * >> >> >> >> *As the temperature rises, polariton formation of global polariton >> Bose-Einstein condensation appears as an epiphenomenon. This BEC will >> thermalize the gamma radiation via a superatom mechanism.* >> >> >> >> *See* >> >> >> >> *Spasers explained* >> >> >> >> *http://www.phy-astr.gsu.edu/stockman/data/Spaser_Chapter.pdf >> <http://www.phy-astr.gsu.edu/stockman/data/Spaser_Chapter.pdf>* >> >> >> >> >> >> >> On Tue, Jul 30, 2013 at 12:12 PM, Arnaud Kodeck <[email protected]> >> wrote: >> >>> Axil, >>> >>> >>> >>> Where can I find the presentation of Kim at ICCF18? >>> >>> >>> ------------------------------ >>> >>> *From:* Axil Axil [mailto:[email protected]] >>> *Sent:* mardi 30 juillet 2013 16:38 >>> *To:* vortex-l >>> >>> *Subject:* Re: [Vo]:The recent ICCF18 (Defkcalion Demo) >>> >>> >>> >>> Defkelion has mentioned nanoplasmonics in their ICCF-18 via Kim this >>> year. You best begin your study of this area of scienceto understand >>> LENR. >>> >> >> >
