Jones, I like your description. I liken it to a "hot condensate" under extreme pressure and temperature within a void) If you relieve pressure quickly (structural failure of the lattice containing it) it might "flash" matter to achieve a new equilibrium. Just food for thought.
On Sunday, August 26, 2012, Jones Beene wrote: > Before getting too worked up over the superatom, remember that it may > be a good metaphor for energy gain in condensed matter systems – but the > superatom simply cannot be involved in the Rohner scam. **** > > ** ** > > BTW - even Stirling Allan is covering his backside on this scam and > apparently now believes that the “pop” effect is due to strong eddy > repulsion in a hidden aluminum ring. The plastic piston does not work > without the ring, and you get the same pop without or without the special > gas. Clever showmanship, but not gainful.**** > > ** ** > > Anyway – moving on to real physical anomalies – in order to create the > required BEC phenomenon, these researchers cooled atoms to what is > essentially absolute zero, and saw the lowest temperature ever achieved.** > ** > > ** ** > > If they could have done it at higher temperature, they would have. **** > > ** ** > > It is also worth noting, in looking for correlates in the real world of > energy systems, that although each hydrogen atom has spin ½, when they are > a bound-pair in a Casimir cavity, they can act as a composite boson. Other > factors in quantum magnetic alignment would indicate that a bound pair of > protons is much easier to take to a “bosenova” state. IIRC, we on vortex > coined that neologism long before these guys. Check the archives.**** > > ** ** > > Having said that – it is worth mentioning again in this context - the > concept of “comperature” (introduced by F. Grimer). Comperature is a single > variable which is an amalgam of pressure and temperature at the atomic > level. These two properties should not be separated in the practical sense, > as Boyle observed many years ago – and perhaps they cannot be truly > separated at all.**** > > ** ** > > Hydrogen, which has been captured in the Casimir pores of a ferromagnetic > metal at ambient - can experience the equivalent of absolute zero by having > high effective over-voltage which is the same as extreme compression. At a > loading of 1:1 in a metal matrix, the effective pressure is well over > 10,000 bar, and the comperature would have an effective temperature > equivalent to near absolute zero, even at ambient ‘normal’ temperature. It > is not known how high the normal temperature can go to maintain Bose > statistics in the bound and aligned pair.**** > > ** ** > > Jones**** >
