What is H2N(0) ? There is no superfluidity without a liquid state ________________________________ From: JonesBeene <jone...@pacbell.net> Sent: Wednesday, April 24, 2019 12:04 PM To: vortex-l@eskimo.com Subject: [Vo]:New Holmlid paper on Research Gate
https://www.researchgate.net/publication/331968180_Ultradense_protium_p0_and_deuterium_D0_and_their_relation_to_ordinary_Rydberg_matter_a_review<https://nam05.safelinks.protection.outlook.com/?url=https%3A%2F%2Fwww.researchgate.net%2Fpublication%2F331968180_Ultradense_protium_p0_and_deuterium_D0_and_their_relation_to_ordinary_Rydberg_matter_a_review&data=02%7C01%7C%7C2ecc70bb9b84452fdb3308d6c8ce7d1a%7C84df9e7fe9f640afb435aaaaaaaaaaaa%7C1%7C0%7C636917186512327770&sdata=rWR%2BqHYD86U016VeHqAH38WKVWIHdYtv0rBNcFZmGGA%3D&reserved=0> There is a clue here about why the output in muons has been difficult for others to duplicate. It turns out that the active material must be in the form of long chain clusters, not simply the smaller grouping. QUOTE: “Superfluidity and a Meissner effect at room temperature are only found for the long chain clusters H2N(0), while the small H3(0) and H4(0) clusters do not have any super properties” This means that there is a specific technique which has to be implemented to first densify and then to create the extremely dense clusters in which most of the nuclear reaction processes take place. Following this step, laser irradiation will give meson showers (most types of kaons and pions) and, after meson decay, large fluxes of muons and other leptons. The fluxes can be extraordinarily high Why is LLNL not all over this ??? It seems almost negligent to ignore this. Heads should roll if the Holmlid effect has been overlooked by the one National Lab whose missionand multibillion funding level is so similar. Not to mention the military implications.