Extreme pressure of just about any element or compound will likely produce a meta-stable state where deep-orbit electrons are configured. These results come from recent research using a powerful laser shot to compress matter to the ultra dense state even at extreme temperatures has shown that just about any compound or element will become ultra dense in a meta-stable state when subjected to enough pressure.
See https://www.sciencedaily.com/releases/2019/03/190311125134.htm Researchers turn liquid metal into a plasma On Mon, Jun 10, 2019 at 11:07 PM Andrew Meulenberg <mules...@gmail.com> wrote: > Jean-Luc Paillet and I are interested in this 2nd link “A simple argument > that small hydrogen may exist” > > https://www.sciencedirect.com/science/article/pii/S0370269319303624, > <https://www.sciencedirect.com/science/article/pii/S0370269319303624> > because we think that 5 (out of 6) sections support our contention that > deep-orbit electrons are the theoretical basis for cold fusion. Its author, > Va’vra > at Stanford/SLAC, was one of two authors of two papers (refs 4 & 5 in the > link) that are the best on the topic of deep-orbit electrons. This most > recent paper (unlike refs 4 & 5) appears to have been done in a hurry, > because there are lapses in his arguments and development. We intend to > write a response, or 2nd paper, to this journal supporting his conclusions > and correcting and strengthening his arguments. > > > For those more interested in his astronomical speculations, I suggest > looking at his earlier papers in the arXiv: (See abstracts in > https://arxiv.org/search/astro-ph?searchtype=author&query=Va%27vra%2C+J ) > > > Andrew M. > > _ _ _ _ > > On Sun, Jun 9, 2019 at 10:56 AM JonesBeene <jone...@pacbell.net> wrote: > >> >> >> >> >> https://www.sciencedaily.com/releases/2019/06/190606101831.htm >> >> >> >> Magnetism seen in Earth’s mantle attributed to iron oxide (hematite) in >> this study, but they did not consider another candidate. >> >> >> >> Given that hematite is a catalyst/storage medium in Holmlid’s work on the >> densification of hydrogen, there is the likelihood that the anomalous >> geological magnetism described in this article is related to hematite - but >> not alone – instead to it is hematite which is loaded with dense hydrogen. >> >> >> >> Dense hydrogen would be created in the solar corona and transported to >> earth in the solar wind. Mills has espoused this hypothesis. It would have >> an extremely high Curie point. Because of the high density and magnetism of >> this isomer of hydrogen, it should migrate and accumulate in the deep ocean >> trenches of Earth’s oceans over the millennia and eventually attach to >> dissolved iron (prevalence 3 PPB) and gradually sink into the mantle – >> thus providing the anomalous magnetic fields which are attributed to >> hematite alone. >> >> >> >> As for pinpointing the possible ways to validate this hypothesis, look >> for anomalous magnetism in lava or thermal vents in the ocean. This could >> also be a way to extract or mine UDH for commercial use. >> >> >> >> As mentioned else where there is a recent article from Va’vra at >> Stanford/SLAC “A simple argument that small hydrogen may exist” which >> offers his perspective. >> >> >> >> https://www.sciencedirect.com/science/article/pii/S0370269319303624 >> >> >> >> The historical introduction for this species is most interesting and not >> widely appreciated. >> >> >> >> >> >> >> >> >> >
