%0 Journal Article
%T Quantum Tunneling in Breather Nano-colliders
%A V. I. Dubinko
%J Physics
%D 2015
%I arXiv
%X In many crystals with sufficient anharmonicity, a special kind of lattice vibrations, namely, discrete breathers (DBs) can be excited either thermally or by external triggering, in which the amplitude of atomic oscillations greatly exceeds that of harmonic oscillations (phonons). Coherency and persistence of large atomic oscillations in DBs may have drastic effect on quantum tunneling due to correlation effects discovered by Schrodinger and Robertson in 1930. These effects have been applied recently to the tunneling problem by Vysotskii et al, who demonstrated a giant increase of sub-barrier trans-parency during the increase of correlation coefficient at special high-frequency periodic action on quantum system. In the present paper, it is argued that DBs present the most natural and efficient way to produce correlation effects due to time-periodic modulation of the potential well width and hence to act as breather nano-colliders (BNC) triggering low energy nuclear reactions (LENR) in solids. Tunneling probability for deuterium (D-D) fusion in gap DBs formed in metal deuter-ides is shown to increase drastically with increasing number of oscillations resulting in the observed LENR rate at ex-tremely low concentrations of DBs. Possible ways of engineering the nuclear active environment based on the present concept are discussed.
%U http://arxiv.org/abs/1503.09119v2