I think putative DDL state hydrogen (Df/H) and probably hydrinos would be more stable that you give them credit. At our environmental temperatures, the average kinetic energy is 1.5 kT which is about .04 eV at room temperature. Hydrinos would probably need 50eV in an inelastic collision to re-inflate, and Df/H would need something like 500keV. So, hydrinos would find some ppm of re-inflation on the tail of the Boltzmann curve, but the Df/H atoms would not. Long before you got to a 500keV collision, the Df/H would fuse with its collision target.
Bob Higgins On Tue, Sep 30, 2014 at 11:32 PM, Eric Walker <eric.wal...@gmail.com> wrote: > On Mon, Sep 29, 2014 at 8:26 PM, <mix...@bigpond.com> wrote: > > I have previously suggested that a dense cluster might also absorb the >> energy in >> the form of kinetic energy distributed among thousands of densely >> clustered >> atoms. > > > I see that Robin and Jones were talking about hydrino reinflation > yesterday, so my observation was a little late. One detail to add is that, > it seems to me, unless there are a sufficient number of Mills catalysts > lying around to further shrink wayward hydrinos that are thinking of > reinflating, I assume they would all eventually reinflate through > (endothermic) inelastic collisions. You'd start out with normal matter, > get hydrinos, and end with (fully) normal matter. > > Eric > >
