If I read this right Jones A gram of tap water contains ~1.0e19 deuterons, indicating that the E fields in a typical microwave oven should "energize" the ~ 7.0e10 per cm^2/sec "sterile" Solar Neutrinos enough to aid neutron stripping of the deuterons, and effect nuclear waste remediation in a beaker of water containing a few grams of 137CsCl2?
Is Radio-Argon formed in salt water nuked in a microwave oven? Frederick Jones Beene wrote: > > Oh heck, let's cut to the chase. This is going to long enough and complicate anyway. > > Executive summary: > 1) High voltage has the demonstrated property of forcing a 'neutrino oscillation.' > > One implication of this heresy is to test the hypothesis around power lines. Are > nuclear transmutations > seen under power lines? Well, believe it or not, there is one fellow in Kansas who has > made > a lifetime commitment to find out this one fact, and here is his website: > > http://old.jccc.net/~rhammack/ > > 2) Neutrino oscillation from the 'massless' variety, into the 'electron > anti-neutrino' which > is suspected to have rest mass is 3.4 eV, is hypothesized to drastically increase the > cross-section > for nuclear interaction. > > > The nuclear interaction with a D nucleus is sufficient to both eject the neutron (in a > process > called stripping - and then with the added high field gradient- to force accelerated > decay > of that neutron) Although the neutron is net-neutral from a distance, it has a > negative near-field > which extends out about 2 x 10^-15 m (2 fermi). > > > 3) The fusor is a fairly large volume HV device which should encourage neutrino > oscillation > and resultant interaction with deuterium nuclei. > > > 4) In a HV field, beta decay can be accelerated a billion-fold under certain > circumstances, > depending on the degree of previous neutrino interaction > > > 5) On decay of any neutron recently ejected from the D nucleus, it will give up a beta > of about > 500 MeV and a proton of enough energy to bring about D+D fusion by inertial > confinement technique > where the 'effective' convergence voltage has been raised a few deviations form the > threshold > (MeV). > > > 5) The neutrons measured in a Fusor are indeed mostly fusion neutrons, but they > represent a > small proportion of the total neutrons which have been produced > > > 6) Most of the stripped neutrons are 'overloaded' and decay in milliseconds. > > > Not too long ago, researchers completed experiments at the National Accelerator > Facility in > Newport News in which a high-energy electron beam interacted with deuterons to > resolve details > below 1 angstrom. The results indicate that contrary to most theoretical predictions - > the > deuteron can be adequately described as consisting of two particles loosely bound > together > into a pulsating dumbbell shape: they concluded that "we don't have to worry about the > quarks > and gluons" in describing deuteron structure at higher energies. > > > Although the neutron binding energy in the deuteron appears to be 2.2 MeV, plasmas of > a few > eV and can knock neutrons out of deuterons in such a way that the neutron goes free. > That much > is not in doubt. In 1935 Robert Oppenheimer and Melba Phillips made a basic > contribution to > quantum theory, discovering what is known as the Oppenheimer-Phillips effect, and to > this > day the implications of it are not fully appreciated, even among high energy > physicists. In > fact, I have a grave suspicions the widely used deuteron plasma cross-section table > that is > used by physicists all over the world was constructed without correction for neutron > stripping > reactions. > > > The two physicists found that, when a deuteron is fired into a target atom even > weakly, the > neutron of that atom can be stripped off the proton and penetrate the nucleus of the > target. > Before, it had been assumed that since the deuteron and target nucleus are both > positively > charged, each would just repel the other except in high-energy collisions. The > Oppenheimer-Phillips > effect suggests that electric polarization, at low energies of impinging deuterons, > may act > to nullify coulomb repulsion to a certain extent but that the effect is limited to > deuterons, > because it is the only nucleus in the periodic table in which the overall positive > charge can > be self-shielded WRT another nuclei. > > Snip
