On Jan 24, 2011, at 12:24 PM, Jones Beene wrote:
In re a most interesting hypothesis about harnessing ZPE:
http://mtaonline.net/~hheffner/NuclearZPEtapping.pdf
It strikes me that one kind of Heisenberg trap which could exist in
a practical device is in an “oscillating boson”, which goes from
condensation and back in see-saw fashion rapidly, or from the
Efimov state of said boson - and back rapidly to the non-ring.
The QBEC, or quasi BEC, is a hypothetical transitory condensate,
especially composed of the only unique “composite boson” in nature
that might possibly condense in an oscillating fashion at high
temperature - for a tiny instant of time in each cycle.
This is atomic hydrogen or single H, which has the minimum of 2
fermions giving integer spin. Given that spin can be aligned
magnetically across many atoms, the daunting task of aligning other
properties is greatly diminished so that normal probability gives a
statistical window for transitory condensation at moderate
temperatures – way above absolute zero.
… or not.
To be continued.
Jones
Here is an older article on Hesienberg traps that deal with atomic
scale (about 1 Å) electron traps, which have about 3.8 eV uncertainty
energy:
http://mtaonline.net/~hheffner/HeisenbergTraps.pdf
I suggested a mechanism by which these traps might form, as the
conduction bands are filled during extreme loading conditions.
Best regards,
Horace Heffner
http://www.mtaonline.net/~hheffner/
