We now know that the compression mechanics that actions hot fusion is not happening in the LENR reaction, but experimental date does unequivocally show that fusion of elements is occurring. Also the weak force reaction that many believe is at the core of the LENR reaction does not fit the experimental LENR reaction based evidence that has accumulated over the years. We see in the work of Holmlid a new type of nuclear and subnuclear reaction that rips matter apart and seems to provide an alternative reaction pathway other than fusion through compression and the weak force.
The coming thing in condensed matter physics and quantum engineering is the ability to select the quantum properties of a fermion and/or a boson that are useful and discard the others. It is now possible to build a material that hosts quasiparticles that mix and match the quantum properties selected from one or more fundamental particles that are useful and to ignore or restrict the other less advantageous ones. The selected quantum properties can be strengthened and protected while other properties can be ignored. For example, condensed matter Scientists can now see their way in creating Majorana particles because of their potential to store quantum information in a special computation space where quantum information is protected from the environment noise. “The new discovery of topological superconductivity in a two-dimensional platform paves the way for building scalable topological qubits to not only store quantum information, but also to manipulate the quantum states that are free of error,” Now what does this mean for LENR. It is possible to isolate the hypercharge property of the electron and form a superconducting condensate of hypercharge. What this hypercharge condensate turns out to be is the HIGGS field. A quasiparticle of a condensate of hypercharge can project an amplified Higgs field into a volume of matter and break that matter apart through an increase in the mass of its constituent quarks. After the amplified Higgs field is removed, the quarks will reform into a set of new elements. On Fri, Aug 16, 2019 at 6:28 PM JonesBeene <jone...@pacbell.net> wrote: > For many years, a recurring theme on vortex involves the idea that a > local form of high temperature superconductivity could be the hidden > underlying modality which was needed to form a BEC condensate in palladium > deuteride, and that this condensate was necessary as a prerequisite for a > nuclear reaction to occur at elevated temperature,, even if the state > lasted only picoseconds, as opposed to stability at cryogenic conditions. > > > > The argument could be worth renewed interest – given that transient HTSC > has been found and reported in an authoritative study not involving LENR. > That report turned up on LENR forum from poster Ahlfors - as the subject > of a PhD thesis by M. Syed from an Australian University. > > > > http://web.tiscali.it/pt1963.home/publist.htm > > > > “Transient High-Temperature Superconductivity in Palladium Hydride” > > > > The nano-magnetism concept of Ahern, for instance, was predicated on > high-temperature local superconductivity for reducing randomness, arguably > in the form of a ‘transient condensate.’ As to why a pulse of magnetism > would be important – very simply this gets back to structural uniformity > and Boson statistics. > > > > Two bound deuterons in a cavity exist at identical ‘compreture’ due to the > cavity containment but that is not enough. Magnetism can thereafter align > spin, so immediately you have a near-condensate in the sense of extreme DFR > ("Divergence From Randomness") in the physical properties of those atoms in > the matrix. From this highly structured but non-cryogenic state – a > “virtual BEC” need last only picoseconds if there us sequential recurrence. > > > > This is from one of the earlier threads on vortex - with a SPAWARS > citation linking to further details on LENR-CANR.org. > > > > https://www.mail-archive.com/vortex-l@eskimo.com/msg89480.html > > > > > > > > >
