Upon the "annihilation" of both particles, two gamma, should read
Upon the "annihilation" of both particles, two 512 KeV gamma are produced that travel in an antiparallel direction away from the point of "annihilation" . On Sat, Sep 27, 2014 at 9:04 PM, Axil Axil <[email protected]> wrote: > I suggest that a very fast monolithic reaction process will allow Helium-2 > (diproton) to form. Then immediately, before the positrons decay can take > place producing neutrons, two diproton atoms will fuse to the latent helium > 4 intermediate product will take place comprised of 4 protons. > > After positron emission produces 2 neutrons to form helium 4,, the > characteristic LENR emission of 1,02 MeV gammas will manifest, > > Upon the collision of a particle and an anti-particle, e.g. electron and > positron, these are "annihilated" as particles and the mass of these > particles converted into energy. Electron and positron have a rest mass > which is together equal to an energy of 1.02 MeV. Upon the "annihilation" > of both particles, two gamma, > > The usual radiation product of a LENR reaction is positrons and lots of > them. > > On Sat, Sep 27, 2014 at 8:34 PM, H Veeder <[email protected]> wrote: > >> >> >> On Thu, Sep 25, 2014 at 5:42 PM, <[email protected]> wrote: >> >>> In reply to H Veeder's message of Wed, 24 Sep 2014 23:04:12 -0400: >>> Hi Harry, >>> [snip] >>> >Since we are dealing in impossibilities from the outset, it seems like >>> >false logic to argue that the probability of endothermic reactions >>> >is improbable. >>> [snip] >>> I have told you what I think and why. Whether or not you choose to >>> accept it is >>> up to you. >>> >>> Regards, >>> >>> Robin van Spaandonk >>> >>> http://rvanspaa.freehostia.com/project.html >>> >>> >> >> I found this drawing on a site which happened to be extremely critical of >> P&F's research. >> >> >> https://docs.google.com/document/d/1OpDKkgdQKrgP29Nxa0N_biIsLz0qeY8UGDGpFJCFSy0/edit?usp=sharing >> >> What I like about the drawing is that it shows the three d-d fusion >> pathways all passing​ through the same intermediate stage of high energy >> helium 4. I modified the drawing to show the reaction going in both >> directions before the excited intermediate stage has a chance to decay. I >> think that the lattice facilitates the initiation of fusion but it also >> tends to inhibits the completion the fusion process. The question of course >> is of what relevancy is this scenario if it does not produce energy? If it >> can form an epicatalytic >> process then it is very relevant. >> >> >> Harry >> >> >
