I asked the question in a previous post about thedirectional stability of a
group of coupled protons but did not get sufficientresponse so I am attempting
to rephrase. The stability of the directional characteristic of these nucleons
is ofparamount importance if confirmed.
There is a suggestion that many protons can work as a unit whenconfined to a
nickel or similar crystal. If this is true, then perhaps an external or
internal magnetic fieldmight be capable of modifying the direction of the
entire group resulting inthe collision of one or more protons with nearby
nickel nuclei. In this case fusion might occur when the LENRdevice sees a
change in the field direction. This seems to be consistent with the observation
that movement ofhydrogen protons by diffusion into the nickel crystal appears
to enhance energyproduction. The motion of theseparticles would result in the
modification of the instantaneous magnetic field.
It has also been reported that LENR does not occur until acertain minimum
temperature is reached. This quite possibly may be when the internal magnetic
properties of thenickel degrade and external lines of force take over. A
process such as this would tend to bedifficult to predict unless understood and
hence we would interpret this as atough process to reproduce.
So the big question is: how strong is the coupling effectwith regard to the
maintenance of the motion vector of the protons that groupand how much force
can one proton be given as it attempts to breech the coulombbarrier? Does
anyone know of where thistype of information might be obtained? Is there an
experiment that can be performed that demonstrates thesephenomena?
The question about directional stiffness can be broken downinto one major
effect. Do coupled protonshave a very strong tendency to keep moving in the
same direction as dictated bythe group? For example, if the group ofprotons is
moving in the X direction, will it take a very large force to makeone of these
acquire a Y or Z component to its motion? Likewise, can one of these protons
overcomethe coulomb barrier by borrowing propulsion from its partners?
I am considering protons that are “dressed” in a mannersimilar to the electrons
that are activated by an energy source such as alaser. The electron coupling
wasmentioned earlier in the vortex.
Dave
P.S. I am hoping to direct some energy toward a new subject. The climate
change discussion is absorbing all of the bandwidth.
