RE: [Vo]:LENR on a ChipJones-- I assume that the resonances are microwave frequencies or greater, up to a frequency of infrared light. A normal resonance for NMR is in the radio wave frequency. This resonance changes with increasing B fields to reflect the differential spin energy states of a nucleus. (900 MH may be acceptable to allow coupling in some coherent systems subjected to large B fields.)
I would say that the energy between spin quanta states of the respective coherent system is what must be matched to the phonic transitions associated with lattice vibrations at the reaction temperature. The temperature of the coherent system, including the metal lattice and its electrons, is what determines the resonance conditions of the lattice electrons orbital spin states and which is coupled to the coherent system’s nuclear spin states. Since the lattice electrons are many, with many in resonant conditions at any given temperature, they are able in concert to accept many quanta of spin energy needed to effect a transition to a more stable nuclear configuration with lower mass and a net loss of energy. IMHO the spin energy transfers happens rapidly, but not instantaneously. Thus, in my earlier comment I suggested reaction time constants were important in engineering control. Without a time constant in effect, control of LENR reactions would not be possible and would be inconsistent with experiments that have achieved control. Bob Cook From: Jones Beene Sent: Wednesday, August 05, 2015 6:16 PM To: [email protected] Subject: RE: [Vo]:LENR on a Chip From: Bob Cook Ø Ø IMHO, the changing B field creates the coupling associated with the coherent system’s spin state, all during the small time increment the appropriate resonances occur, to allow the transition of mass energy to phonic energy and/or low frequency EM energy… Bob … not necessarily low frequency (or how low is low?) … if the spin energy could be resonantly tuned to microwave frequencies, then direct conversion to DC is easier (has been demonstrated at acceptable efficiency at 900 MHz) http://scitation.aip.org/content/aip/journal/apl/103/16/10.1063/1.4824473 A planar “package” of 3-4 components: SPP chip, Ni-H target, and microwave collector is arguably possible as a self-powered “battery” for a smart phone or other small electronics which operates at room temperature, since SPP creation no longer requires incandescence. If we can operate without a thermal cycle, we can maximize spin conversion to electrical current with a minimal size. To do this, the parameters can possibly be tied into the Overhauser effect and DNP and operate somewhat as an analogy to the Mossbauer effect. I think Axil may have speculated on the type of spin coupling which would be necessary to bypass the thermal cycle altogether. Here is some Wiki-wisdom. https://en.wikipedia.org/wiki/Dynamic_nuclear_polarisation https://en.wikipedia.org/wiki/Nuclear_Overhauser_effect Note the blip on “Magic Angle Spinning DNP (MAS-DNP)”… J
