Axil--
I second Fran’s comment regarding a nice citation--the one regarding dynamic nuclear polarization. It provides a sought after coupling of the transfer of spin energy between nuclei and electrons. It does not involve large energy (Mev) changes in one reaction. I think it seems reasonable that nature likes small energy transitions at cool temperatures as opposed to large ones associated with high temperature/kinetic energy reactions. It is pretty clear that the known reactions of spin transfer occur in small quantum increments. The DNP phenomena are good examples. Bob The mode referred to as magic Sent from Windows Mail From: Roarty, Francis X Sent: Thursday, July 10, 2014 1:18 PM To: [email protected] Axil, nice citation, it might also assist the manufacture of powders of the appropriate geometry by stunting the effect when the geometries are most vulnerable at the instant of creation. Perhaps we should be activating our catalysts in a microwave? Fran From: Axil Axil [mailto:[email protected]] Sent: Thursday, July 10, 2014 4:23 PM To: vortex-l Subject: EXTERNAL: [Vo]:Dynamic nuclear polarization http://en.wikipedia.org/wiki/Dynamic_nuclear_polarisation Dynamic nuclear polarization results from transferring spin polarization from electrons to the nuclei, thereby aligning the nuclear spins to the extent that electron spins are aligned. Microwaves are used to adjust nuclear spin through electron orbital manipulation in a nuclear magnetic resonance process to enhance the RF emissions of weakly emitting nuclear resonate compounds. Whatever enhances RF emissions from nuclear spin adjustment will depress the LENR reaction. Rossi could use this phenomenon to depress runaway LENR overheating when imeltdown begins to set in. Furthermore, with this new reaction control procedure, Rossi could use dynamic nuclear polarization to run his reactor at a very high COP well into the dangerous meltdown zone if he came up with a quick response control process that depressed and dampened LENR activity via microwave activation at the proper resonant frequency and at an advanced critical temperature breakpoint.
