Walker,
This paper is actually more of a mix of Mills, Ahern and Swartz. >From Mills he gets the electron orbital energy - 27.2 eV plus the molecular >bond energy, which powers everything. From Ahern he gets the large amplitude >anharmonic lattice vibrations (he also fails to credit Fermi-Pasta-Ulam) and >from Swartz the H/D preference as well as other details. In short, there is not much which is new here, other than bringing together the ideas of others without giving them due credit. And in the end, he fails to explain how the gamma radiation from fusion magically disappears. I cannot see much to get excited about here. From: Ian Walker Hi all This paper supports many of the concepts and views that Edmund Storms brought to vortex. I hope Edmund continues to follow the vortex and has read the paper. Kind Regards walker On 17 June 2014 12:21, Ian Walker <[email protected]> wrote: Hi all An interesting new theory paper has been submitted to Cornell's Arxiv http://arxiv.org/ftp/arxiv/papers/1406/1406.3941.pdf Also submitted to the Journal of Condensed Matter Nuclear Science Submitted to Journal of Condensed Matter Nuclear Science (16.06.2014) Low energy nuclear reactions driven by discrete breathers V.I. Dubinko NSC Kharkov Institute of Physics and Technology, Kharkov 61108, Ukraine A new mechanism of LENR in solids is proposed, which is based on the large amplitude anharmonic lattice vibrations, a.k.a. intrinsic localized modes or “discrete breathers” (DBs). In particular, so called gap DBs, which can arise in diatomic crystals such as metal hydrides, are argued to be the LENR catalyzers. The large mass difference between H or D and the metal atoms provides a gap in phonon spectrum, in which DBs can be excited in the H/D sub-lattice resulting in extreme dynamic closing of adjacent H/D atoms required for the tunneling through nuclear Coulomb barrier. DBs have been shown to arise either via thermal activation at elevated temperatures or via knocking atoms out of equilibrium positions under non-equilibrium gas loading conditions, employed under radiolysis or plasma deposition methods. The DB statistics in both cases is analyzed and simple analytical expressions for the cold fusion energy production rate are derived as the functions of temperature, ion (electric) current and material parameters. For the first time to our knowledge, the derived expressions describe quantitatively the observed exponential dependence on temperature, linear dependence on the ion current as well as the role of external triggering and small dimensions of nuclear active particles. Keywords: anharmonic lattice vibrations, discrete breathers, quantum tunneling, nuclear fusion. Kind Regards Walker
