Fran: Good point.
I think the evidence supports the hypothesis that, *whatever* LENR is, it is not a single event; there are likely several different processes happening depending on what kind of system one has (e.g., electrochemical or gas-phase), and that it may also be a cascade of separate 'reactions'. If this down-conversion is happening, then perhaps the 'chain' in chain-reaction is that one or two of the many resulting separate reactions does indeed trigger another cascade; at least until it hits some unconformity which kills the domino-effect. -mark From: francis [mailto:froarty...@comcast.net] Sent: Monday, December 26, 2011 11:26 AM To: janap...@gmail.com Cc: vortex-l@eskimo.com Subject: Re: [Vo]:Spontaneous parametric down-conversion (SPDC) Perhaps the same entanglement is responsible for the fusion such that if a seemingly low probability fusion event occurs under these circumstances then the down conversion will also occur? Two different facets of the same environmental cause? Fran Axil Axil Mon, 26 Dec 2011 08:33:20 -0800 In Spontaneous parametric down-conversion (SPDC) as a process in quantum optics, a nonlinear crystal is used to split photons into pairs of other photons. The efficiency of that process is proportional to the amount of quantum mechanical entanglement that is produced by the incident laser on the nonlinear crystal lattice used to split photons into pairs of photons. The frequency at which this entanglement is produced is low as a funtion of the number of photons that are contained in the incident UV laser beam. On the other hand, we known from the copper isotopes that are produced as ash in the Rossi reactor, thanks to the analysis of both DR, Kim and Horace Heffner, almost all cold fusion nuclear reactions involve the fusion of entangled cooper pairs of protons in the nucleus of nickel atoms. So in the case of the Rossi reaction, the probability of entanglement is very high. Therefore the probability of power and frequency splitting of the radiation produced by the cold fusion nuclear reactions in the nickel lattice as well as its teleportation into the surrounding hydrogen envelope is almost certain.