Axial wrote
When the heat level that is driving the dipole vibration of electrons exceeds a
critical level, the amplitude of the magnetic field that is produced by the SPP
is strong enough and lasts long enough to hit the pile of nearby nuclei in one
shot where the magnetic field can produce a fusion event and still be of
sufficient amplitude to carry the released binding energy back to the source of
the magnetic field. That nuclear energy is then digested by the soliton and fed
back to the dipole motion that created the soliton.
>From my book. This solution also produced the amplitude of harmonic motion
>from fundamental principles.
In 1916 Einstein published the famous paper “Emissionand Absorption of
Radiation in Quantum Theory”. This paper stated that theprobability of
transition could be increased through the action of an externalstimulation.
This stimulative process wasapplied, in a limited way, to the development of
the LASER. Znidarsic observed a stimulative process atwork within cold fusion
cells. Theaction of this stimulative process is universal. The quantum
transition progresses by the way of its action. The matter wave does not
collapseinstantaneously. It contracts at thespeed of a longitudinal matter
wave Sn. The amplitude (displacement) of vibration, ofthe speed Sn squared,
isproportionate to the probability of transition. The resulting vibration
shakes the electron free of the grip of theparticle like discontinuity rpand
stimulates theemission of a wave like photon. Anintense stimulation can also
induce a chemically assisted nuclear reaction.
The energy levels of the atom are established as theelectron attempts to take
every path into the nucleus. The only open paths are ones of
matchingimpedance. The match in impedance wasquantified through an equality in
the electronic and the nuclear speeds. A factor of 2π relates thelongitudinal
nuclear speed Snto the transverse speed of light within the atomic environment
in (22).
