https://phys.org/news/2016-05-scanning-skyrmions-scientists-image-skyrmion.html
Scanning for skyrmions: Scientists directly image skyrmion cluster state transitions in iron-germanium nanodisks The key to LENR is twisting magnetic field lines to form magnetic knots. This magnetic field line twisting produces magnetic particles called instantons that cause particles to decay. A material called a cubic helimagnet can do this trick. On Thu, Jun 15, 2017 at 1:34 AM, Alain Sepeda <[email protected]> wrote: > his framework to propose NiMn is absolutely not nucler, but about the > phase transition graph. > The idea behind is that if you use PdAg or NiMn you can load hydrogen > (D/H) with less damage in the crystaline lattice at lower temperature. > > when Ag and Mn reduce a threshold temperature, above whiche phase > transition is smoother and there is less damage in the latice. > > It may be coherent with Ed Storms theory, and his hypothesis that big > cracks are bad, and compete with smaller cracks that are however required, > and maybe produced by alpha-beta transition, but the smoother version... > > all is about metallurgy. > > 2017-06-14 15:17 GMT+02:00 Jones Beene <[email protected]>: > >> Thanks. There is interesting information there. >> >> Armanet suggests that an equivalent of PdAg for LENR could be NiMn (as >> opposed to NiAg). Apparently this relates to a similarity in geometric >> spacing in the crystal. >> >> This equivalency may assume that the only purpose of the silver is to >> mechanically stabilize the matrix, which may not be the ultimate benefit of >> the alloy - if silver also is reactive for the nuclear tunneling of >> hydrogen. >> >> In terms of the active mechanism for gain, the emphasis on phase change >> by Armanet could open up an alternative mechanism. That would be coupling >> of nuclear spin/isospin to phase change. >> >> >> >> Alain Sepeda wrote: >> >>> Nicolas Armanet talking of alpha-beta transition in Pd discussed Ni >>> during RNBE2016. >>> >> >> >
