The most interesting thing to me on the coldfusionnow page - announcing the shameless Brillouin Capitol Hill supplication …
http://coldfusionnow.org/brillouin-energy-corp-hosts-information-session-on-lenr-thermal-energy-technology-at-u-s-capitol/ …was not the data-free PR event itself – but a side-bar review of Ruby’s interview with Stan Szpak et al and the part about the magnetic field. Brian Ahern noticed this detail but almost everyone else has failed to see its importance. https://www.youtube.com/watch?v=QxBJjWzlKl0 When viewed in the context of the recent dense hydrogen disclosures, it is a bit of an eye opener – particularly the part (12:55) about the light water, palladium and magnetic field runs where 3 out of 10 actually went into total meltdown !!!! Look at the size of those magnets and the complete melting of the electrodes. This result has SPP and dense hydrogen buildup, written all over it. Since few were aware of SPP back then, this has not come up before. When viewed in the context of papers such as “Local control of the excitation of surface plasmon polaritons by near-field magneto-optical Kerr effect” or Magnetic field modulation of intense surface plasmon polaritons”, plus the 4 day buildup of active hydrogen (when co-dep is usually faster) – and the use of lithium chloride instead of lithium hydroxide (Chlorine is extremely photoactive), then … taking it all together, there is a decent case for SPP formation leading to dense hydrogen, leading to nucleon disintegration. All of this is happening after 100 hours of buildup of dense hydrogen. No mention was made of radioactive debris and I’m assuming there was little. Nucleon disintegration of the Holmlid variety apparently results in mostly muons which generally decay rapidly to neutrinos and electrons, most of which escape the system with little radiation signature. This begs for replication using an intense light source, although Holmlid says that regular lab lighting is sufficient. The dense hydrogen buildup should happen in less time with a monochromatic light source and with a changing magnetic field.
