Post revised and extended... Andrea Rossi October 4th, 2014 at 8:45 PM
To the Readers: On *Science* has been published the discovery of the “Majorana Fermion”, so called because it has been hypotised by Ettore Majorana ( fellow student of Enrico Fermi , when they were called “I ragazzi di via Panisperna”). This particle is extremely interesting because it is, at the same time, an elementary particle AND its own antiparticle. The discovery has been made in the Princeton University by the Group of Nadj- Perge. Warm regards, A.R. Is this interest in this discovery a hint that we should watch closely developments in this area of science? I never before noticed that Rossi mentioned foreign publications not related to his JoNP or any interest in a new scientific discovery. When we get down to it, what is a particle anyway? Are these majorana-fermions actually solitons? Could this particle be a topological knot in a EMF vacuum based spin liquid? How would we distinguish the EMF field emanations of a Surface Plasmon Polariton (SPP) soliton from that of a majorana-fermion? Are magnetic monopoles really majorana-fermions. Could what these researchers have found really be a SPP soliton that just look like a majorana-fermions? Can nickel do just as well as iron in this type of experiment? It seems that majorana-fermions are formed at the tips of superconducting nanowire. Can any one dimensional nanowire based magnetic field emitter produce this "particle"? All thin nanowire (AKA one dimensional topological conductor) are superconducting. Are Rossi's tubercles superconducting? Could these particles be forming at the tips of Rossi's tubercles? Could majorana-fermions be also formed at the tips of Rydberg hydrogen crystal nanowires forming in the Ni/H reactor or for that matter at the ends of the water crystals that LeClair has seen in his cavatation experiments? Could majorana-fermions or whatever it is be an important factor in LENR where magnetic field emitters are involved? Can we use a scanning-tunneling microscope to look at the tips of Rossi's tubercles and these other magnetic field emitters to do a comparison with the field produced by this new discovery? On Fri, Oct 3, 2014 at 3:57 PM, Axil Axil <[email protected]> wrote: > > http://phys.org/news/2014-10-majorana-fermion-physicists-elusive-particle.html > > > > Majorana fermion: Physicists observe elusive particle that is its own > antiparticle > > > What is a particle anyway? Are these majorana-fermions actually solitons? > Could this particle be a topological knot in a EMF spin liquid? How would > we distinguish the EMF field emanations of a SPP soliton from that of a > majorana-fermion? Are magnetic monopoles really majorana-fermions. Could > what these researchers have found really be a SPP soliton that just look > like a majorana-fermions? > > It seems that majorana-fermions are formed at the tips of superconducting > nanowire. All thin nanowire (AKA one dimensional) are superconducting. > Could majorana-fermions be formed at the tips of hydrogen crystal nanowires > or at the ends of the water crystals that LeClair has seen his cavatation > experiments? Could majorana-fermions be an important factor in LENR. > > > > >
