Ed, this super-diffuser idea could lead to a good experiement to test the Bose condensate idea. The coherence length at thermal frequencies is 50nm. Assuming the product that I get applies to this system 1.094 megahertz-meters, the coherence length should be longer with radio frequency stimulation. At 10 mega hertz of stimulation the co-herence length should be .1 meters. The rate of diffusion should increase when a proton conduction of this length is stimualted at that frequency. If I were not on the road, living in a hotel in Knoxville, and here working on CO2 capture, I would try this.
Cc: Edmund Storms <stor...@ix.netcom.com> Sent: Fri, Jun 19, 2009 10:28 am Subject: Re: [Vo]:Fringe This is a nice imaginative theory described in the article, Frank, but it does not prove that Bose Condensates of hydrogen exist. In fact, such structure should show up as anomalies in diffusion, which they do not. If a structure containing H(D) can move through the lattice without resistance, the material should also become a super-diffuser, which it is not. In addition, PdD is superconducting in the normal way at about 10°K, not at room temperature where the BC structures have to exist to be useful for CF. I still see no evidence that these structures exist in PdD.
