Thanks Jed, I should have posed my question a little better. My thought was along the lines of taking a known hot fusion case where the gamma radiation would be extreme and work the way downwards in temperature. We realize that the normal argument of the hot fusion crowd is that the rate of hot fusion approaches zero as the temperature falls. I was attempting to determine whether or not experiments that simulate hot fusion conditions would always generate the dangerous gammas in proportion to the energy released even as the temperature falls.
Is it possible to anticipate or has anyone actually measured a disconnect to these two phenomena at some threshold activation level? If the same rule is always seen to apply then it implies that it should continue to exist all the way to the temperatures accepted for cold fusion. Jones makes a good argument that it is unlikely to eliminate all of the gammas and I suspect he is correct. This condition would lead me to believe that a more complex mechanism is at work where the final product may be helium, but it must not be obtained directly by the fusion of two Ds. This is the type of evidence which I am seeking. Do you have anything along that line? Dave -----Original Message----- From: Jed Rothwell <jedrothw...@gmail.com> To: vortex-l <vortex-l@eskimo.com> Sent: Fri, Jul 11, 2014 5:01 pm Subject: Re: [Vo]:Dynamic nuclear polarization David Roberson <dlrober...@aol.com> wrote: Is anyone aware of an experiment that actually involves fusion of D x D at low temperatures while the radiation is monitored? Well, they always monitor radiation in cold fusion experiments. You can see the meters in photos of experiments, such as Mizuno's: http://lenr-canr.org/acrobat/YoshinoHreplicable.pdf They always monitor for it, but they seldom detect any, and they never detect it at a rate commensurate with a plasma fusion reaction. - Jed
