Jones and Axil--
As You may guess, I tend to agree with your considerations regarding spin coupling and magnetic resonances. The intense fields at small dimensions allowed by the nano size structures is an inference that I have long held. Keep up the good discovery work. I wonder if any of the Professors at the University of Strasbourg are in the group trying to determine the theory of Rossi’s TPT? I’m heading to the University of Bologna in 6 weeks and hope to talk with the folks there about their ideas. I will report back asap. Bob Cook Sent from Windows Mail From: Axil Axil Sent: Friday, August 1, 2014 8:21 AM To: [email protected] If a magnetic force is produced by an atomic level cause whose dimensions are nanoscale, and the intensity of the magnetic force at 20 cm is 1 tesla. By the cube law relationship, the intensity of the magnetic source as produced on the nanoscale can be reckoned as 2*10^^8 cubed or something like 8*10^^24 tesla. On Fri, Aug 1, 2014 at 11:37 AM, Jones Beene <[email protected]> wrote: http://phys.org/news/2014-07-tiny-magnets-huge-fields-nanoscale.html#nwlt Doudin et al - at University of Strasbourg propose that nano ferromagnetic electrodes can create powerful localized force fields which are tuned by an external magnetic field. "Localized field" is a key. Inverse square power laws can make a large difference. Their finding can be understood as similar to a precondition for nanomagnetism in LENR. Of course, this paper is ostensibly not related to LENR, so it would also be a mistake to try to read too much into it. One must first understand the nuances of superparamagnetism, as the gateway to spin-coupling in LENR... then this cross-connection can become apparent. The authors construct nanonickel electrodes in a solution containing paramagnetic molecules and control the electrode's magnetization direction with an external magnetic field. In so doing, they created a conductive molecular-sized switching system which is the chemical equivalent of a spintronics spin valve. Spin coupling is implied. In LENR this molecular level switching would occur at Terahertz blackbody rate of the thermal system, and would act as a pump for extracting spin energy from protons, nickel atoms, or both (as magnons) - which show up as thermal gain in a system where superparamagnetism and superferromagnetism compete with each other. "Magnon" is another key concept for LENR. The high level of spin coupling to magnons is possible as a direct result of competition between superparamagnetic and superferromagnetic particles in motion, and in phase change - as well as a dynamical Casimir effect at the same geometry. Moving from a geometry defined by micron dimensions to nano, when magnetism is involved, brings with it the potential for gains of 1000^2. That, in a nutshell, is what nanomagnetism is all about. Jones And ... for the benefit of the growing "spin-coupling" "nanomagnetism" cadre on vortex, consider inverse cube as it relates to the Biot-Savart Law for magnetism. The parameters for change from square to cube favor the smaller dimensions. The Biot-Savart Law has a cubic power law denominator and ostensibly gives an inverse cube dependence for magnetism in those scenarios. See http://en.wikipedia.org/wiki/Biot%E2%80%93Savart_law
