BTW, positronium has mass but Hotson's epo's do not. Jones Beene <jone...@pacbell.net> wrote:BTW – for all of Don Hotson’s fans on vortex, and there are many… The epo or BEC is based on Dirac’s equation and theories – as is all of Hotson’s “interpretation of Dirac” and this field consists entirely of massless electrons and massless positrons. Wow, think of how well this fits into the recent revelations. It makes a lot of sense to suggest that the Weyl fermion is indeed an outlier of the same species, but since the BEC (aether) is found primarily in another dimension, it is rare to find either epo constituent in 3-Space… From: Jones Beene This thread on Weyl fermions, so-called “massless electrons” seems to be gathering a bit of traction on the internet. The WF particle or quasi-particle, which is essentially a quantum of negative charge (somewhat reminiscent of Ken Shoulder’s EVO) ostensibly could be captured by protons to neutralize their positive charge (forming ultradense hydrogen, at least temporarily). This possibility causes one to imagine novel ways to test or implement this hypothesis - in an actual LENR experiment. Here is one which could be interesting. There are many YT videos demonstrating the Meissner effect, which is usually explained as the expulsion of magnetic flux by a superconductor in a magnetic field. If a magnetic field is applied after the material has become superconducting, the flux cannot penetrate (unless flux tubes are provided). This would be explained differently if we focus on WF, the Weyl fermion. In fact the subject heading of this thread – explains it in a different way. This would indicate that the repulsion effect becomes (at least partly) a Coulomb’s Law effect - instead of inductive. Probably it is a bit of both. In fact, if we arrange a LENR experiment so that a strong permanent magnet is laminated to a thin HTSC disc – the kind which is engineered to have flux tubes, then it is possible that we can in fact create a beam of WF - on cooling the conjoined discs. More details to follow. Imagine that possibility – an invisible beam of WF, coming from a very cold superconductive device (grounded of course) which is creating heat via proximity to a deuterium-loaded matrix of palladium metal… wow… we might have to pay tribute to Gene and label this phenomenon as “fire from ice” or else… “WTF” ? Too bad that Holmlid has already label the phenomenon of hydrogen activation as ultra-dense Rydberg hydrogen, and Widom-Larsen has labeled it as ultra-low-momentum neutrons, and Mills labeled it as hydrinos … all of these are close, but not quite there. >> Massless electrons ? Actually we should call them Weyl Fermions (WF) since >> by definition, the electron has mass and we do not want to ruffle too many >> feathers. And a quick googling indicates high probability that WF have been >> verified by several groups.
ØAre your massless electrons related to this? http://rexresearch.com/barbat/barbat.htm Dunno. This is all new to me. Looks like Wm. Barbat is jumping on board with the idea, and why not? Maybe there is something big brewing up there in Oregon. OTOH, they did recently legalize recreational ganga… J An interesting detail is the implication that CuO could be a Weyl semimetal. As we know, CuO is the backbone of high temperature superconductors, but it probably requires more to become a robust WF, such as we see in BISCO. It would be most intriguing if HTSC can be linked to the new fermion. For a long time there has been strong hints of a connection between LENR and HTSC.