I love the references, lol: [1] Wikipedia, Nuclear Fusion, (http : //en.wikipedia.org/wiki/Nuclearf usion), 17 March 2015. [2] Wikipedia, Cold Fusion, (http : //en.wikipedia.org/wiki/Coldf usion), 25 September 2014. ..
On Wed, Jul 8, 2015 at 10:28 AM, Blaze Spinnaker <blazespinna...@gmail.com> wrote: > Vorteceans - Looks really exciting: > > We first show a possible mechanism to create a new type of nuclear fusion, > thermal resonance fusion, i.e. low energy nuclear fusion with thermal > resonance of light nuclei or atoms, such as deuterium or tritium. The > fusion of two light nuclei has to overcome the Coulomb barrier between > these two nuclei to reach up to the interacting region of nuclear force. We > found nuclear fusion could be realized with thermal vibrations of crystal > lattice atoms coupling with light atoms at low energy by resonance to > overcome this Coulomb barrier. Thermal resonances combining with tunnel > effects can greatly enhance the probability of the deuterium fusion to the > detectable level. Our low energy nuclear fusion mechanism research - > thermal resonance fusion mechanism results demonstrate how these light > nuclei or atoms, such as deuterium, can be fused in the crystal of metal, > such as Ni or alloy, with synthetic thermal vibrations and resonances at > different modes and energies experimentally. The probability of tunnel > effect at different resonance energy given by the WKB method is shown that > indicates the thermal resonance fusion mode, especially combined with the > tunnel effect, is possible and feasible. But the penetrating probability > decreases very sharply when the input resonance energy decreases less than > 3 keV, so for thermal resonance fusion, the key point is to increase the > resonance peak or make the resonance sharp enough to the acceptable energy > level by the suitable compound catalysts, and it is better to reach up more > than 3 keV to make the penetrating probability larger than 10^{-10}. > > http://arxiv.org/abs/1507.01650 > > >