FQHE reduces the inherent charge of fermions as a function of increasing magnetic field.
The nucleus is a fermion, the protons and neutrons are fermions and so are quarks. Why should a magnetic field make a distinction in the way it reduces charge is the various types of fermions? I won't. On Thu, Dec 19, 2013 at 12:59 PM, John Franks <[email protected]> wrote: > "Is like or maybe is" > > How so? Once again, QHE or FQHE is to do with cooperative properties of > light leptons. So how does this carry over to heavy hadrons and what does > that have to do with CF? > > > On Thu, Dec 19, 2013 at 5:53 PM, Axil Axil <[email protected]> wrote: > >> Cold fusion is like(or maybe is) the Factional Quantum Hall Effect(FQHE). >> Science did not believe that something like the FQHE was possible until it >> was shown experimentally. Cold fusion is the FQHE moved over to the >> fermions of the fermions of the atomic nucleus. >> >> >>> >>> If you are suggesting BEC, well electrons are leptons and light, how can >>> you get heavy hadrons into one coherent state at room temperature? If this >>> is the case, has CF been observed to occur spontaneously in liquid H2? >>> >> >
