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.
Ed
On Jun 19, 2009, at 8:08 AM, fznidar...@aol.com wrote:
try this link Ed..there is a lot out there on proton
superconductivity if you care to look
http://www.newscientist.com/article/mg18624984.400-superconductors-have-no-need-to-be-negative.html
-----Original Message-----
From: fznidar...@aol.com
To: vortex-l@eskimo.com
Sent: Fri, Jun 19, 2009 9:38 am
Subject: Re: [Vo]:Fringe
Ed you need to search for "Heavy Fermion Superconductivity" to find
out what the non-cold fusion community
is doing with proton superconductions.
Several people have suggested that a Bose Condensate is involved. I
have trouble with this concept because these structures are expected
to have very low bonding energy, hence have been observed only near
absolute zero. In addition, such a structure based on hydrogen is
still pure speculation. This structure, if it is possible, obviously
forms only under very rare and special conditions within the CF
environment. What are these conditions and why are they necessary?
If such a structure should form, how do I get it to vibrate exactly
at the right frequency?
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