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
