Norront is well funded and should be able to use NMR analysis to fully identify isotopic changes. They already have the laser facility to alter magnetic fields and associated resonances.
Bob Cook ________________________________ From: JonesBeene <jone...@pacbell.net> Sent: Wednesday, June 19, 2019 9:00:42 AM To: vortex-l@eskimo.com Subject: RE: [Vo]:Mizuno reports increased excess heat Here is a bit of a shocker if you haven’t been following this breaking news closely. The connection of Mizuno to the Holmlid UDD (ultra dense deuterium) phenomenon may be closer than most observers are aware. Late last year – after the earthquake – Mizuno supplied a test reactor to Sindre Zeiner-Gundersen and the Norront Fusion group – the main licensee of Holmlid. https://coldfusionnow.org/tadahiko-mizuno-rewards-community/ Ruby confirms this in the Olafsson podcast. It may not have been the latest reactor version with the “Aladdin effect” (the magic effect of rubbing the genie’s lamp) but given all that has transpired recently – how long would it take a researcher to add this detail? Few hours at most if you have the nickel mesh and a bit of Pd. In fact, it is now becoming evident what Sindre Zeiner-Gundersen may have meant when he said that they are no longer using the Shell catalyst (iron oxide) of Holmlid but have made an improvement. That was last winter. Could that improvements have been made already using either the Mizuno mesh or else a mechanical alloying of Pd and iron oxide? Prediction – we should be hearing something soon from Norront to confirm the Mizuno collaboration and hopefully with even better results… -------------------------------- Another looming possibility is that only sparse nuclear fusion reactions are happening but most of the thermal gain comes from BEC dominated processes where mass is converted into energy in such a way that the thermal gain is more than chemical but less than fusion. Most likely the excess mass being converted is related to strong force dynamics via Quantum Chromodynamics. It seems likely that nickel does not promote fusion and the tiny amount of palladium is insufficient for the large amount of heat Mizuno is seeing. The possibility of non-fusion QCD reactions is hinted at in the previously cited Hora paper but it is not their interpretation. “Surface Effect for Gas Loading Micrograin Palladium for Low Energy Nuclear Reactions LENR” By Heinrich Hora, George H Miley, Mark A Prelas, Kyu Jung Kim and Xiaoling Yang This paper keeps turning up because of the “micrograin palladium” parameter – in contrast to bulk Pd. It is all about clustering of bosons which can lead to fusion on rare occasion, but otherwise most of the heat of the process can derive from the clustering dynamics of the high temperature BEC. Curiously, the microcracking structure popularized by Ed Storms could relate to the same NON-fusion pathway for gain despite his insistence otherwise. Quantum Chromodynamics can be seen a natural outcome of a disturbance in the large deuterium cluster – the very tight packing in the BEC which can be hundreds of atoms. According to the paper - deuterons collect in the cracks as a condensate, in extremely dense accumulations at room temperature but fuse rarely due to their low colliding energy of several 10 meV. However, this is sufficiently high that van-der-Waals forces or the increased Casimir forces at the pm distance may lead to the fluid state where deuterons clinch together tp form clusters and then oscillate in and out of the BEC state. It should be noted, that clusters with 100 deuterons of the size of one crystal void (Schottky defect) were measured in palladium ... These states could directly be identified from the deuteron emission energy of 630 eV from clear measured mass spectrometry. Wow – they clearly measured this level of gain which cannot be related to fusion. 630 eV is a huge amount of energy compared to chemical but tiny for a nuclear processl - and yet it can derive from a bulk clustering process where the only radiation would be extreme UV radiation and eventually lots of heat. ----------------------------------------------------- Should separation distance between metals prove to be important, then a very small separation between two metal sheets can be obtained by etching a honeycomb pattern into fine gold leaf, and using it to separate the two target metal sheets. This could allow gas pressures as high as 17 atm. to be used if so desired. Regards, Robin van Spaandonk local asymmetry = temporary success
