Under intense EMF radiation, the charge of the fermions: nucleus, nucleon, and quark are screened in part or completely based on the EMF power level. When the EMF is removed, matter will reconfigure itself in transmutation. There will be a good deal of probability and uncertainty involved in this transmutation process but the process must release positive energy to meet the conservation of energy requirements.
On Sat, Jan 18, 2014 at 3:07 PM, Eric Walker <[email protected]> wrote: > On Sat, Jan 18, 2014 at 11:30 AM, David Roberson <[email protected]>wrote: > > One of my favorite concepts is that the electric field induced by the >> rapidly changing magnetic field could accelerate protons so that they >> fuse. This would be a form of hot fusion if active. >> > > In the context of known physics, a p+p reaction will not go anywhere very > quickly (unless Jones is right about "reversible proton fusion"). The > proton-proton chain that is thought to power the sun relies upon a step in > which a very unstable and short-lived [pp]* state is followed by a > beta-plus decay to get a deuteron (and a positron and electron neutrino). > This second step depends upon the weak interaction and is extremely slow, > and hence unfavored. If the weak interaction were faster, the sun would > rapidly burn through its fuel (or perhaps explode). > > For this reason, people proposing a p+p reaction of some kind in the > context of LENR are compelled either to modify the application of the weak > interaction (as in the case of Ed Storms, who seems to be saying that it > just doesn't apply to the hydroton) or increase the rate of beta-plus decay > by localizing energy in the system to get a neutron (Widom and Larsen) or > do something else along these lines. It is the weak interaction that is > causing their explanations so much difficulty. Because the weak > interaction is (normally) so slow, I find the d+p, d+d, p+Ni, etc., > reactions much more promising. > > Eric > >
