H Ucar-- I may have responded to your original question in the context of low energy nuclear reactions (LENR) and not what I believe to be in the realm of particle physics. I did not realize the focus of your question about particle physics, instead answering the comment you made—
>“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.”< I did write an email to Dr. Susskind at Stanford related to spin coupling and magnetic moments of components of a coherent qm system, which is copied hereinafter: >>>Dr. Susskind-- I graduated from Washington University in physics in 1961. I started graduate work in the area of NMR , which as you know entails manipulation of nuclear magnetic moments in a magnetic field. Because of the War during the early 60’s, I ended up in the nuclear navy as a nuclear engineer and reactor fuel designer. I did not follow up on the physics of spin interactions until after retirement in 1988 and the event of cold fusion (LENR) tests at Utah University in 1989. I have followed the development of LENR since. The subject lecture series that I recently watched on line is a nice discussion of a magnetic dipole in a magnetic field. My exposure to your lecture series happened because I watched a presentation on magnets coupled in a magnetic field at the following link, which play list identified your lectures. https://www.youtube.com/playlist?list=PL3KwdWTgl7fisd3h_tK1YLhFeuzkPATNt Your lecture seems to clearly describe spin coupling in a strong magnetic field that may be occurring in various solid state and plasma systems that appear to harbor LENR reactions. The reactions provide significant excess energy whose source is not well understood, but seems to be associated with change of mass of nuclei to more stable configurations. My conjecture is that there may be spin coupling between nuclei and electrons in a coherent system. (LENR does not seem to entail high energy particles with significant kinetic energy nor EM radiation with significant energy. LENR seems tame compared to normal 2-particle nuclear reaction without much option for giving up energy—i.e., hot fusion or fission reactions.) Do you have any lectures on-line that address electronic/nuclear or BEC spin coupling that would allow energy release in many small quanta (spin quanta) equivalent to the energy associated with large nuclear transitions? The on-line Vortex-l blog has been a source of interesting ideas about LENR and a link to many technical papers. My ideas on possible spin coupling are presented on that blog starting 1-1/2 years ago. Frank R Cook (Bob Cook) Spokane, WA 509-747-0648 <<< Note that my assumption above that the small, “minimalist” spin of the electron may be desirable in the transfer of small quanta of spin energy in LENR reactions to make it a safe reaction compared to hot fusion and the focus of pertinent particle physics. In addition I suggested the complex magnetic coupling in your levitation experiments may be similar to the complex magnetic coupling in a coherent system producing a LENR reaction, and thus the empirical understanding of levitation experiments may have application to understanding LENR. Bob Cook From: [email protected] Sent: Sunday, November 01, 2015 4:00 PM To: [email protected] Subject: Re: [Vo]:Magnetic levitation experiments I wrote: “On the latest videos the magnet orbit plane slowly rotates. It appears a precessional effects and this rotation rate directly affected by presence of magnetic field on Z direction. If this magnet supposed an electron this slow precession correspond to Larmor precession.” On the latest moment of video 20151031 213750 the precession speed-ups because of the magnets in the protection cover of my cell phone camera. H Ucar ------ Original message------ From: mailto:[email protected] om Date: Mon, Nov 2, 2015 01:43 To: [email protected]; Cc: Subject:Re: [Vo]:Magnetic levitation experiments
