H Ucar-- The Leonard Susskind lecture on the nature of electron spin in a magnetic field is instructive. See the following link to Susskind’s series of lectures at Stanford Univ.
https://www.youtube.com/watch?v=ZCymP87zFwc Susskind presents how electrons can respond in a magnetic field to emit EM radiation. SPP’s and other engineered systems in the field of LENR are thought to create intense magnetic fields. The coupling of electrons to the a magnetic field depends upon the intensity of the magnetic field the electron encounters. It may be that resonances of allowed energy transitions in a coherent quantum mechanical system of particles—a metallic lattice or a coherent inter-connected plasma, etc.---may cause transitions of the coherent system to lower potential energies and greater thermal—phonic or thermal energy of the lattice, total energy being conserved. The various coupling modes associated with a varying magnetic field or fields at right angles may allow short-term conditions/resonances to allow the energy transitions suggested. The rate of such reactions in a strong magnetic field may be substantial causing many reactions to occur, producing useful energy. As Susskind notes, the intensity of the magnetic field reduces the time it takes for a electron to shift its spin and give off low energy photon. Thus, lots of electrons that are ready to change their spin state found in a metallic lattice may be the ticket to get the LENR reaction to occur with a distribution of many small quanta of energy as spin energy to a large number of electrons. The various magnetic modes of your (H Ucar) experiments may shed light on the appropriate way to create the resonances noted above in an engineered system of an appropriate geometry and or the devices to provide the varying magnetic fields suggested as necessary to induce LENR. Bob Cook I am conducting experiments on keeping pm magnets in air by interacton of a rotating magnet driven by small dc motor. Stability is basically provided by Mathieu eq. so there would be no 'new physics', I think. OTH, it provide new solutions to magnetic levitation by achieving stability on six degrees of freedom. I would like to have your suggestions on how this work woud be benefitable. Such a stable coupling between magnetic dipolar bodies excited me by possibity of similar interactions could exist in particle physics. Some of videos are at https://www.youtube.com/playlist?list=PL3KwdWTgl7fisd3h_tK1YLhFeuzkPATNt While the clear shapes of magnets cannot be seen in videos, mostly Nd 10x10 mm cylendrical, 10 mm cube and smaller magnets are floated. In some tests spin of floating magnet is locked to base magnet by 1/n ratio, providing epicycloidal patten on floating magnet axis. These can be seen in some videos showing a laser beam reflected from magnet flat surface. Base magnets are typically oriented in rota ting housing almost radially. Motor speeds are in 6000-22000 RPM range. H Ucar
