http://phys.org/news/2014-06-long-range-tunneling-quantum-particles.html
Long-range tunneling of quantum particles Bose enhancement is a quantum mechanical term. Here is another example of how Strongly Correlated Material can add great nuclear disruptive power to a LENR system. This above referenced experiment shows that tunneling of particle helped by many like particles can be supercharged to penetrate a barrier or a series of barriers that a single particle could never do. Tunneling produced by Bose Einstein concentrates (BEC) grow very powerful because it is enhanced by the superatom effect as the number of entangled members of the BEC ensemble N get large; that is by a factor N^^1/2 where N is the number of particles in the concentrate. In the hot spot where uncountable trillions of Surface Plasmon Polaritons (SPP} are concentrated to form a single wave in a BEC soliton, the projected spin of that ensemble is not multiplied by just uncountable trillions (T) of SPPs but is also enhanced again by T^^1/2 over and above that BEC population factor through Bose enhancement. The magnetic field that projects that enhanced SPP spin is truly potent when it comes to particle tunneling. This special origin of this anapole magnetic field will make that field very special and powerful indeed in quipping up turbulence in the spin net liquid of the vacuum..
