Axil, I hope you just notice that the energy scale at which these phenomena occur are puny in comparison to what is needed for fusion.
2013/5/16 Axil Axil <[email protected]> > Dear Ed: > > > http://www.google.com/url?sa=t&rct=j&q=&esrc=s&frm=1&source=web&cd=2&cad=rja&ved=0CDQQFjAB&url=http%3A%2F%2Fwww.phy-astr.gsu.edu%2Fstockman%2Fdata%2FStockman_Phys_Today_2011_Physics_behind_Applications.pdf&ei=KWKUUd2bMe610AHSy4CQBQ&usg=AFQjCNHdcmFaRe9tfcLMzk1V8uwPQ8OvXA&sig2=BHsFSNJUGxJ8Cs9T3pBlJA&bvm=bv.46471029,d.dmQ > > > *A primer on Nanoplasmonics.* > > The concentration mechanism is a resonant constructive interference > process called Fano interference discovered a few years ago. It produces > the “hot spot”, which is the most significant and exciting process in > Nanoplasmonics. > > Much current research into hot spots is currently underway. > Laser light is used to produce dipole vibrations in the nanoparticles. A > Laser only produces plain waves and excites dipole excitation poorly. > > The lattice of a metal produces dipole vibrations in the deep infrared far > better than a laser ever can. > > The Ni/H reactor couples heat with surface electrons to produce polaritons > at high efficiency and then the nano-particles concentrate the EMF in > extreme concentrations. > > -- Daniel Rocha - RJ [email protected]
