Yeah nice animations. To me it explains the higher reactivity of packing superatoms like Rydberg matter into voids that then behave like a Bose Einstein Condensate only at higher temperatures to create the amplified reactions seen in LENR+.
My first swag at a calculation on my blog show that within a void of volume 2.18E-07 cm3 you can pack enough ultra high density Rydberg matter to satisfy the requirements for a micro-black hole at Planck mass. I think collapses can happen at lesser volumes/masses and do not necessarily need to end up as a micro black hole, just as a form of collapsed matter which then basically evaporates into one of these "Bosanovas". The Rydberg or inverted Rydberg matter might continue to stick around in the void waiting for another collapse to be triggered as well as pulling in new atoms/participants. Of course you need to believe you can trigger the collapse within the void which should be "coerced" based upon alignment/concentration of charge (and possible resulting magnetic fields created within the voids) and diameter of the voids (hoop conjecture effect due to void radius) and the repulsion of the atoms within the lattice. I tend to believe the "Zero Point Field" is basically the result of quantum gravity collapsing matter and releasing radiation/heat - a quantum heat pump per se. Some of that radiation may not even be detectable as heat, ie. quarks, gluons, neutrinoes, etc. as the atoms are vaporized. So a heat/mass balance would be tricky.. Collapsed matter/micro-black holes can take in matter or energy in (they are not that selective) and always give you energy back in the form of radiation, just like their big brothers... Stewart http://wp.me/p26aeb-4 Stewart http://wp.me/p26aeb-4 On Mon, Aug 27, 2012 at 10:34 AM, Terry Blanton <hohlr...@gmail.com> wrote: > http://www.nist.gov/public_affairs/releases/bosenova.cfm > > Vid on the sidebar. > > T > >
