I will comply with your formatting requirements in the production of future posts like this one.
On Fri, Jun 7, 2013 at 5:47 PM, Alan Fletcher <[email protected]> wrote: > > From: "Axil Axil" <[email protected]> > > Sent: Friday, June 7, 2013 1:30:54 PM > > Subject: [Vo]:ENTANGLEMENT THRESHOLDS FO > > > > References: > > > > > > http://phys.org/news/2013-05-einstein-spooky-action-common-large.html > > > > > > Einstein's 'spooky action' common in large quantum systems, > > mathematicians find > > > > > > If you like mathematics that can choke an elephant try this as > > follows: > > > > > > http://arxiv.org/pdf/1106.2264v3.pdf > > > > > > ENTANGLEMENT THRESHOLDS FOR RANDOM INDUCED STATES > > You really ought to draw a line here : > > what's in the article and paper ^^^^^^^^^^ > ========================================================================= > comments on how this might affect LENR vvvvvvvvvv > > > > Why does a Ni/H reactor form a Bose-Einstein condensate throughout > > its entire volume? STANIS LAW J. SZAREK provides the answer; the > > dipoles throughout the reactor are forced to become totally > > entangled when the percentage of dipole entanglement exceeds 20%. > > > > > > > > The Ni/H reactor will formulate a very large entangled system when it > > is in operation. As a large system, it has no choice but to become > > totally entangled. > > > > > > Infrared Photon tunneling between the individual Nano-cavities is the > > method by which quantum entanglement is spread Josephson like from > > one nano-cavity to its immediate neighbors. > > > > > > When the Ni/H reactor is not totally entangled, it renders the > > nuclear energy it produces from the decoherent nano-cavities as > > gamma radiation. However, if the 20% entanglement threshold is > > reached, the energy produced by the LENR reaction is thermalized > > through the process of frequency sharing as in a large super atom. > > > > When a Ni/H reactor is not yet totally entangled, it will produce > > gamma radiation. This can happen when the reactor is heating up upon > > startup or cooling down at shutdown. > > > > In the LeClair reactor, the 20% entanglement threshold is never > > reached and a significant proportion of its energy output is > > rendered as gamma radiation. > > > > A Ni/H reactor must exceed this 20% dipole entanglement threshold > > before its energy production phase is initiated to avoid the > > inconvenience of gamma production. > >
