Fran--0 Keep in mind that the avalancheing is observed in small—nano—particles. The avalanche may be a mass-to-kinetic (phonic) energy change in a coherent system. They need to report on any change in particle masses observed in the nano particle.
If deuterium is formed, tritium may not be found. Bob Cook From: Roarty, Francis X Sent: Wednesday, January 27, 2016 6:14 AM To: vortex-l@eskimo.com Subject: [Vo]:RE: [Vo]:Hydrogen uptake causes molecular “avalanches” in palladium Although they don’t go into specifics it is a confirmation that something unique is happening to this constrained hydrogen[snip] the “avalanches” within the nanoparticle lattice may be caused by the hydrogen atoms finding intermediate, or metastable, energy states during the reconfiguration. In large enough particles, the rearrangement of the lattice into these metastable states causes permanent defects to form in the lattice itself. [/snip] these created defects would be my bet for causing life after death, IMHO metastable atoms formed by the lattice constraint turn around and put pressure on the lattice when they try to form metastable molecules – eventually creating defects where they accumulate and slowly leach out. I don’t think anyone knows how long a hydrino or pico hydrogen molecule can last outside the lattice but AFAIK no one has ever seen a standalone or volume of hydrino gas in a flask. My suspicion is they take on numerous metastable states by disassociation and reassociating their way out of the lattice/defect tapestry while harnessing the change in constraints to discount the disassociation threshold. By the time the hydrogen escapes the lattice completely it back to normal hydrogen or tritium with only half life anomalies to indicate something unique may have occurred. Fran From: Mats Lewan [mailto:m...@matslewan.se] Sent: Wednesday, January 27, 2016 6:31 AM To: <vortex-l@eskimo.com> <vortex-l@eskimo.com> Subject: EXTERNAL: [Vo]:Hydrogen uptake causes molecular “avalanches” in palladium Don’t know if this contains new findings. Might be relevant for Pd+H systems, and maybe also Ni+H systems. "As the hydrogen is taken up over time, there is eventually a sudden reconfiguration of the hydrogen distribution within the lattice, a process colloquially referred to as “avalanching.” " http://www.anl.gov/articles/hydrogen-uptake-causes-molecular-avalanches-palladium Mats www.animpossibleinvention.com