DGT says that about 1 tesla is produced at 20 CMs in their reactor. If the source of that field is localized to a few nanometers, that means that by the inverse square law or the cube law if you like, the power at a few nanometers is 20,000,000 to the second or third power tesla. Now that is a strong magnetic field.
On Wed, Aug 20, 2014 at 1:35 AM, Kevin O'Malley <kevmol...@gmail.com> wrote: > Thanks Axil. Cool Explanation. Unfortunately, about par for the course > in your theorizings.... I cannot understand it. I do not see a single > reference to muons nor how much power is required for them to do their > thing. Perhaps it is implied... heavily implied. This isn't a > "connecting of the dots", it is a "drawing a detailed picture with dots > that artists think EVERYONE should be able to see". But not everyone sees > it, and the more abstract the dot construction, the fewer people who see > it. Once you get to a certain level of abstraction, anonymous email > experts use their puppets to try to get you kicked off the board because > even those anonymous "famous" experts probably don't understand what you're > saying and they're too intimidated to confront you. Well, anyways, thanks > for the response. > > > > On Tue, Aug 19, 2014 at 10:07 PM, Axil Axil <janap...@gmail.com> wrote: > >> The SPP's not only focus magnetic photons, it also focuses virtual >> photons. >> >> Virtual photons create the magnetic field that define the rate of nuclear >> decay. Usually, the vacuum produces a fixed average rate of virtual photon >> production. So the rate of radioactive decay is stable. >> >> When the SPP focuses virtual photons into a small volume, the rate of >> radioactive decay increases a lot. >> >> This answers why there is no radioactive byproducts produced in LENR. >> >> The Rate of photon production is increased in the same way through >> focusing, so the chance that a meson is produced by magnetic interaction >> with the proton goes up a lot. The two photon reactions both real and >> virtual are directly proportional. >> >> So if radioactive half-life in reduced though virtual particle >> production, the rate(probability) of meson production is increased >> proportionally as demonstrated by the same concurrent photon focusing >> mechanism. >> >> There is always a chance that a meson is created from the vacuum. >> >> Magnetic focusing also increases the chance of seeing a whopper of a >> virtual energy increase in the proton so meson production goes way up >> too. This increased chance of a large virtual energy contribution per unit >> time also increases the chances for meson creation. >> >> > >