that transmutation seems to be the fusion with an even number of > deuteron (2-4-6), with preference to stable isotopes.
IMHO, the reason for the even deuteron rule is the requirement from zero spin in the groping of nuclei that will enter into the LENR reaction. A pairing of protons that result in a total nuclear spin result of zero are required for the fusion reaction to be successful. On Thu, Sep 11, 2014 at 11:31 PM, <[email protected]> wrote: > In reply to Alain Sepeda's message of Wed, 10 Sep 2014 10:28:16 +0200: > Hi, > [snip] > >it remind me the observation of Iwamura as noticed in the book of Ed > >Storms, that transmutation seems to be the fusion with an even number of > >deuteron (2-4-6), with preference to stable isotopes. > > Note also that Hydrino molecules may have a better chance of approaching > the > nucleus of another atom than lone Hydrinos. The former are essentially > chemically inert, are very "heavy", and can be very small. Electrically, > they > look like doubly massive neutrons. The latter can be chemically extremely > reactive as they can bind with an electron to form a negatively charged > Hydrinohydride ion, far more aggressively than even Fluorine gas. > Consequently Hydrino molecules might trigger reactions that would not > otherwise > be seen, such as:- > > 62Ni + Hy2 => 63Cu + p (6.2 MeV) > > (Where Hy2 is a severely shrunken Hydrino molecule.) > Regards, > > Robin van Spaandonk > > http://rvanspaa.freehostia.com/project.html > >
