How does air fit in and in general how do LENR poisons defeat the LENR reaction?
On Fri, Aug 2, 2019 at 6:09 PM Jürg Wyttenbach <[email protected]> wrote: > Light In solid matter couples to the SO(4) 1FC orbit. As this adds mass > the radius of the orbits expands. A more fine effect is the small change in > charge that may happen due to more mass moving on a larger orbit. > The above orbits are all electron orbits and thus adding mass makes the > electron a bit more repulsive. > > Jürg Wyttebach > > > Am 02.08.19 um 23:16 schrieb Axil Axil: > > > > *https://physics.aps.org/articles/v12/88 > <https://physics.aps.org/articles/v12/88> Focus: Light Seems to Pull > Electrons Backward* > > > *Light hitting a metal surface at an angle sends the electrons moving in > the direction opposite to the light, a result that puzzles theorists. * > > The interaction of light with electrons will produce polaritons. > Polaritons have negative mass. The light gives electrons negative mass so > they move in the negative direction from the force imparted on them by the > light. > > But when the light interacts with air which is mostly nitrogen, polaritons > are not formed and the light imposes a force in which the electrons move in > the direction positive to the force imparted by the light. > > There is a lessen here to be learned by LENR engineering. Air is a LENR > poison. Polaritons on a metal surface will not form when exposed to > nitrogen. > > Freedom from surface contamination on a LENR active metal surface must be > perfect for the LENR reaction to occur. Any poison on that surface will > destroy the plasmonic reaction that brings forth polaritons. > > > -- > Jürg Wyttenbach > Bifangstr.22 > 8910 Affoltern a.A. > 044 760 14 18 > 079 246 36 06 > >
