Electron-assisted fusion

Quote from fabrice DAVID

the deuterium nuclei are randomly inserted in the palladium lattice. There is a short-range disorder, but a long-range order:

Also Hagelstein has this fake believe. Phonon coupling is bound at the nuclear mass. But Pd has a wide variety of nuclear weights (102...110!!) so that there is absolute no chance for a higher order resonance of any significance. Aluminum is a mono isotope and much more suited for such claims.

So only electron layers can interplay and in fact inside Pd electron spin matter forms out. Unluckily current physics has no clue how electron spin matter works. Copper pairs were the first failed attempt to explain it...

Once you understand that a bound electron just contributes EM flux (and no charge) things get much more clear.

Quote from fabrice DAVID

We must notice that the palladium-deuterium alloy is an “hidden quasicrystal”

I've been fascinated by dendritic growth between thin film solid state systems.

These phase change (dendritic tips) boundary layers are quasicrystals in action. Amazing activities denritic melt and growth on the atomic scale.

Also the subject matter and expertise of Vladimir Pines of NASA GRC the AEC and LCF effort. Hence my interest in quasicrystals and dendrites.

Dynamic Observation of Dendritic Quasicrystal Growth upon Laser-Induced Solid-State Transformation

November 2020Physical Review Letters 125(19):195503

DOI:10.1103/PhysRevLett.125.195503

https://www.researchgate.net/publication/345393987_Dynamic_Observation_of_Dendritic_Quasicrystal_Growth_upon_Laser-Induced_Solid-State_Transformation

Authors:

Insung Han, Uniiversity of Oxford

Joseph T. McKeown, Lawrence Livermore National Laboratory

Ling Tang

Cai-Zhuang Wang

Hadi Parsamehr University of Michigan

Zhucong Xi, University of Michigan

Ying-Rui Lu

Matthew J. Kramer

Ashwin J. Shahani

Abstract

We report the laser-induced solid-state transformation between a periodic “approximant” and quasicrystal in the Al-Cr system during rapid quenching. Dynamic transmission electron microscopy allows us to capture in situ the dendritic growth of the metastable quasicrystals. The formation of dendrites during solid-state transformation is a rare phenomenon, which we attribute to the structural similarity between the two intermetallics. Through ab initio molecular dynamics simulations, we identify the dominant structural motif to be a 13-atom icosahedral cluster transcending the phases of matter.

Yes, it is very strange: normal crystals need a long time to form, the shorter the formation time, the more imperfect they are, but for quasicrystals it is the opposite, while their structure is very complex should require -on the contrary- a very long time to form. This is in my opinion a bright confirmation of the Breathers/Freezers hypothesis.

Hagelstein seems to remain sticked with this former Pd way.

So what is about higher order resonance of lithium with single hydrogen ? Next He4 with nickel ?

Quote from Wyttenbach

Also Hagelstein has this fake believe. Phonon coupling is bound at the nuclear mass. But Pd has a wide variety of nuclear weights (102...110!!) so that there is absolute no chance for a higher order resonance of any significance. Aluminum is a mono isotope and much more suited for such claims.

So only electron layers can interplay and in fact inside Pf electron spin matter forms out. Unluckily current physics has no clue how electron spin matter works. Copper pairs were the first failed attempt to explain it...

Once you understand that a bound electron just contributes EM flux (and no charge) things get much more clear.

Quote from Cydonia

So what is about higher order resonance of lithium with single hydrogen ? Next He4 with nickel ?

Lithium is about 92% 7-Li but the relative weight difference between 6-Li and 7-Li is much bigger as between 102-Pd and 110-Pd...So we can exclude large area phonon coherence in bulk Li. In nano powders the particle size defines more interesting boundary conditions.

Well,

superparamagnetism behavior at these scales should enhance your special magnetic mix in which you trust.

Superparamagnetism - Wikipedia

Quote from Wyttenbach

Lithium is about 92% 7-Li but the relative weight difference between 6-Li and 7-Li is much bigger as between 102-Pd and 110-Pd...So we can exclude large area phonon coherence in bulk Li. In nano powders the particle size defines more interesting boundary conditions.