Of course this BEC condition as the means to allow for ‘cold fusion’ and suppress gammas is precisely what Julian Schwinger proposed in 1989…
From: Axil Axil [mailto:janap...@gmail.com] Sent: Saturday, February 27, 2016 11:54 AM To: vortex-l Subject: Re: [Vo]:Bose condensation in LENR I believe that the LENR reaction happens in two steps. First, Surface Plasmon Polaritons (SPP) form. This marks the formation of the LENR reaction. This is the weak version of the reaction where the COP is limited to 1.2. The preferred state of SPPs is Bose condensation. After SPPs form, they will naturally form a Bose condensate. In this superconductive state, radiation is thermalized. The LENR+ reaction is marked by the creation of Hydrogen Rydberg Matter (HRM). This special crystal structure will amplify the SPPs that accumulate on the surface of the HRM. It is the SPP cover that makes HRM superconductive. The nuclear reactions that are catalyzed by HRM are thermalized and stored in the SPP condensate in a dark mode on the surface of the HRM. The more energy that is stored on the HRM, the more LENR+ active that HRM becomes and the more indestructible that that crystal gets. Any dark mode energy accumulation on the surface of the HRM will eventually leak into the vacuum as hawking radiation. This leakage is the method of thermalization that converts gamma to thermal EMF. If a magnetic field is applied to the HRM, the Bose condensation on the surface of the HRM will be destroyed and all the energy content stored there will be released in a burst. But the SPP which is a photon plasmoid soliton will immediately reform if the magnetic field that destroyed the superconductive nature of the HRM is removed. While the magnetic field is in place, the nuclear energy will be released as gamma radiation and not thermalized by the vacuum. On Sat, Feb 27, 2016 at 1:47 PM, Axil Axil <janap...@gmail.com <mailto:janap...@gmail.com> > wrote: I believe that the energy production mechanism in LENR is based on nuclear reactions that occur in a state of bose condensation. This is indicated by a comparison of the way gamma is produced in the Rossi type reaction as compared to the electric arc driven Defkalion type of reaction. In the Rossi reaction, a burst of gamma happens in a fraction of a second at startup just before the bose condensate is established in the reactor. Once condensation takes hold, radiation is not seen since super-absorption of gamma radiation takes hold to thermalize the gamma radiation. In the Defkalion system, a steady state generation of gamma radiation that ranges from 200 counts per second to 600 counts per second is seen. The reason for this condition for radiation production is because the DC arc that drives the DGT reaction destroys the Bose condensate through the production of a large magnetic field. DGT was noted for the production of very large magnetic fields. A bose condensate just as in superconductivity that state cannot exist for long in a highly magnetically active environment. I predict that if a Rossi type reactor that is producing overunity heat is subjected to a large magnetic field, the overunity heat production will cease and then will be replaced by a continuous production of gamma radiation as the magnetic field destroys the state of bose condensation inside the reactor. I am happy that we now have the chance to test these theories in a open source format.
