How is this with a cooper pair coherence of 100 to 1000 nm?
On Mon, Jan 4, 2010 at 7:22 PM, Jones Beene <jone...@pacbell.net> wrote:
> Winterberg's recent pdf is enlightening
>
> http://arxiv.org/ftp/arxiv/papers/0912/0912.5414.pdf
>
> "It is conjectured that the transition is made possible by the formation of
> vortices in a Cooper pair electron fluid, separating the electrons from the
> deuterons, with the deuterons undergoing Bose-Einstein condensation in the
> core of the vortices. If such a state of deuterium should exist at the
> reported density of about 100,000 g/cm3, it would greatly facility the
> ignition of a thermonuclear detonation wave in pure deuterium, by placing
> the deuterium in a thin disc, to be ignited by a pulsed ultrafast laser or
> particle beam of modest energy."
>
> In regard to the "Cooper pair connection," it can be noted that the
> superconductivity of loaded palladium goes back before 1989.
>
> It is curious to note the transition temps vs loading on the graph here
>
> http://www.phys.psu.edu/people/display/index.html?person_id=202;mode=researc
> h;research_description_id=433
>
> and then extend that line up to the loading ratio or Arata at nearly 4:1
>
> and then in connection with Brian Ahern's patent:
>
> http://www.patentstorm.us/patents/5674632.html
>
> Jones
>
>
