I don’t think it is voltage because the electrons don’t retain their fermionic nature. The Pauli Exclusion Principle will increase the voltage of he electrons in the case of fermions.
The electrons are part of an election/hole pair which is a boson; a Bose-Einstein condensate forms in which the electrons participate. I found this book that I need to look at that may address this issue. Please give me some time to resolve your question in terms of BEC. Bose-Einstein Condensation of Excitons and Biexcitons http://books.google.com/books?id=I0WiYWnC4BEC&printsec=frontcover&dq=isbn:0521580994&hl=en&sa=X&ei=q51tUdvzAdbF4AOO44GABw&ved=0CDEQ6AEwAA#v=onepage&q&f=false On Tue, Apr 16, 2013 at 2:36 PM, David Roberson <[email protected]> wrote: > Axil, > > Do you refer to voltage amplification instead of power amplification? > There is a very big difference between the two. > > Dave > > > > -----Original Message----- > From: Axil Axil <[email protected]> > To: vortex-l <[email protected]> > Sent: Tue, Apr 16, 2013 2:00 pm > Subject: [Vo]:The evanescent wave > > The evanescent wave > There is an EMF power amplification factor of up to 10 to the 12 power > demonstrated by nanolenzes formed by nanowires and nanoparticles. > The question is “how does such a concentration of EMF power occur?” > An evanescent wave exits in the near-field of a reflecting surface with an > intensity that exhibits exponential decay with distance from the boundary > at which the wave was formed. Evanescent waves are a general property of > wave-equations, and can in principle occur in any context to which a > wave-equation applies. They are formed at the boundary between two media > with different wave motion properties, and are most intense within one > third of a wavelength from the surface of formation. > In the context of Ni/H LENR+, the boundary between nickel and pressurized > hydrogen forms a boundary trap where the capacitive EMF(electrons) > accumulate because there is a Total internal reflection of this EMF at the > boundary of the metal hydrogen interface. > These electron waves accumulate and superimpose constructively. This EMF > wave function has no solution that transmits energy away from the boundary. > Mathematically, evanescent waves can be characterized by a wave vector > where one or more of the vector's components have an imaginary value. > This coupling between the hydrogen dielectric and the nickel is directly > analogous to the coupling between the primary and secondary coils of a > transformer, or between the two plates of a capacitor. Mathematically, the > process is the same as that of quantum tunneling, except with > electromagnetic waves instead of quantum-mechanical wavefunction. > This near surface interface boundary is the zone were electrons accumulate > by a power concentration factor of up to one trillion. It is this charge > concentration that produces coulomb barrier lowering in the boundary layer > where the evanescent wave forms. > > Cheers: Axil >
