You might see a Landau distribution if there is a random mixing of both low energy photons (infrared) and high energy photons (gamma's from the nucleus);
Such mixing is produced by Fano resonance, where an SPPs are being feed by both infrared photon pumping and nuclear based gamma photon absorption. On Thu, Feb 25, 2016 at 5:53 PM, Bob Higgins <[email protected]> wrote: > This is conceptually what we are thinking the distribution probably looks > like, but I will have to see it in log scale. I will check. The peak > would have to be below the 30keV cutoff seen in the GS5.2 spectrum. In the > region of the GS5.2 spectrum just above 30keV, the slope just above 30keV > has a slope of 1/x^2.13 . > > On Thu, Feb 25, 2016 at 3:32 PM, Axil Axil <[email protected]> wrote: > >> [image: Inline image 1] >> >> A Landau distribution is what we are seeing in the MFMP radiation plot. >> It is the release of energy by particles based on a random release process. >> This is seen when a particle gives up its kinetic energy to a thin film as >> the particles interact randomly with the matter in the thin film. >> >> If SPPs are releasing their energy based on a random timeframe and/or >> based on a random accumulation amount, a Landau distribution of energy >> release will be seen. >> >> On Thu, Feb 25, 2016 at 5:22 PM, <[email protected]> wrote: >> >>> In reply to Bob Higgins's message of Wed, 24 Feb 2016 10:12:37 -0700: >>> Hi, >>> [snip] >>> >What LENR theories presently can account for MeV electrons? Actually, >>> there appears to be energy out to over 1.4 MeV in the Bremsstrahlung. >>> >>> During f/H (thanks Jones ;) capture, the energy may be carried away by >>> the >>> shrunken electron. >>> >>> Of course, that implies a reaction where the fusion energy is 1.4-1.5 >>> MeV. >>> >>> Regards, >>> >>> Robin van Spaandonk >>> >>> http://rvanspaa.freehostia.com/project.html >>> >>> >> >
