Holmlid said: "Previous results from laser-induced processes in ultra-dense deuterium D(0) give conclusive evidence for ejection of neutral massive particles with energy >10 MeV u−1. Such particles can only be formed from nuclear processes like nuclear fusion at the low laser intensity used."
Holmlid is making and assumption based on the very high energy of the neutral particles. These particles are fragments of the Rydberg matter. It is not determined where the energy imparted to those particles came from. Holmlid just assumes that a low powered laser cannot produce the explosion of a rydberg crystals. You know what happens when people assume things. On Wed, Oct 14, 2015 at 9:19 PM, Eric Walker <eric.wal...@gmail.com> wrote: > On Wed, Oct 14, 2015 at 6:32 PM, Axil Axil <janap...@gmail.com> wrote: > > When nanoparticles that are comprised of a thausand atoms explode due to >> coulomb explosion, they produce 1.5 MeV. Look it up... >> > > I wasn't aware that "Coulomb explosions" were a thing -- thank you for > pointing this out. > > If you're referring to the mainstream literature, I think the 1.5 MeV > particles would be in the high-energy Boltzmann tail. If you're referring > to p. 8 of Holmlid's paper [1], there are the open questions that Bob has > alluded to. If those signals are resolved to protons and deuterons, as > Holmlid points to, then their energies are consistent with nuclear > reactions (also as Holmlid suggests), and they are part of a total current > of 1e13 particles. > > Eric > > > [1] http://arxiv.org/pdf/1302.2781.pdf > >
