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
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