It is my belief that the spin wave that forms around the positive core of the metallic hydrogen provides a EMF mirror produced by the meissner effect that enables the formation of polaritons in that spin wave, From what is seen on the LION reactor data, a magnon polariton condensate forms on that spin wave and produces a LENR active circular flux tube that demonstrates a singular type of magnetism that is polarized in terms of its handedness or chirality. This flux tube seems to destabilize matter as claimed by Holmlid.
On Wed, Feb 21, 2018 at 11:24 PM, bobcook39...@hotmail.com < bobcook39...@hotmail.com> wrote: > Axil— > > > > Does the metallic H help or hinder magnetic field coupling from inside to > outside the coating? > > > > Bob Cook > > > > Sent from Mail <https://go.microsoft.com/fwlink/?LinkId=550986> for > Windows 10 > > > > *From: *Axil Axil <janap...@gmail.com> > *Sent: *Wednesday, February 21, 2018 12:57 PM > *To: *vortex-l <email@example.com> > *Subject: *Re: [Vo]:What the heck is a Dirac electron? > > > > https://www.youtube.com/watch?v=SRyU2spCCPk > > > > > > Metallic hydogen is impervious to heat and pressure up to 1.44 solar > masses do to the degeneracy pressure produced by its electron coat. > > > > Electron degeneracy pressure will halt the gravitational collapse of a > star if its mass <https://en.wikipedia.org/wiki/Mass> is below the > Chandrasekhar > limit <https://en.wikipedia.org/wiki/Chandrasekhar_limit> (1.44 solar > masses <https://en.wikipedia.org/wiki/Solar_masses>) > > > > https://en.wikipedia.org/wiki/Electron_degeneracy_pressure > > > > This is why loading of palladium will produce metallic hydrogen before > fusion is reached. The creation of metallic hydrogen in high palladium > loading of deuterium will preclude the fusion reaction do to electron > degeneracy > pressure that old guard LENR theory assumes. > > > > On Wed, Feb 21, 2018 at 3:36 PM, JonesBeene <jone...@pacbell.net> wrote: > > Speaking of Winterberg – here is his take on ultradense deuterium from > arxiv severak years ago… > > > > Note the last sentence in the context of ICF laser fusion using a tabletop > laser: “ it would greatly facility the ignition of a thermonuclear > detonation wave in pure deuterium, by placing the deuterium in a thin disc” > > > > AHA – thin disk? As in a disk of graphene? > > > > If the ICF people at LLNL have overlooked this – shame on them > > > Ultradense Deuterium > > F.Winterberg > <https://arxiv.org/find/physics/1/au:+Winterberg_F/0/1/0/all/0/1> > Submitted on 30 Dec 2009 > > An attempt is made to explain the recently reported occurrence of > ultradense deuterium as an isothermal transition of Rydberg matter into a > high density phase by quantum mechanical exchange forces. It is conjectured > that the transition is made possible by the formation of vortices in a > Cooper pair electron fluid, separating the electrons from the deuterons, > with the deuterons undergoing Bose-Einstein condensation in the core of the > vortices. If such a state of deuterium should exist at the reported density > of about 100,000 g/cm3, it would greatly facility the ignition of a > thermonuclear detonation wave in pure deuterium, by placing the deuterium > in a thin disc, to be ignited by a pulsed ultrafast laser or particle beam > of modest energy. > > arXiv:0912.5414 <https://arxiv.org/abs/0912.5414> > > > > > > *From: *bobcook39...@hotmail.com > > > > IMHO some folks, like those you identify at LLNL, are stuck in the dogma > of hot fusion being practical in the future. > > > > Bob, > > > > It’s not that simple. Sure, ITER is a long-running brain-dead boondoggle, > but there are signs of intelligence at other Labs. > > > > In fact, a hybrid form of hot fusion with targets made of UDD is practical > and with this kind of ICF target a desktop laser can be used. > > > > The footprint for hot fusion becomes much smaller and much less > expensive. This can happen with the dense form of deuterium. It is a > paradigm shift. > > > > Essentially, at least as far as what is publicly available - Holmlid is > closer to this goal of small hot/cold hybrid fusion than the billion dollar > efforts… > > > > … unless that is, they are working under the radar on it at LLNL, and you > have to think they are. Friedwardt Winterberg was predicting something like > this 50 years ago. He is almost 90 but still teaches physics. I hope he is > around to see the results. But the timing is uncertain, shall we say. The > great Heisenberg was his doctoral advisor <g> > > > > > > > > > > > > >