Even a weak magnetic field may be enough to effect coupling among the BEC and 
various nano- particle lattice(s) allowing the 2nd law to function—i.e., 
creating kinetic energy from potential energy.

What do you think?

Bob Cook

Sent: Sunday, August 20, 2017 9:48 AM
Subject: RE: [Vo]:Activating LENR in the Quark Reactor.

EveN in a weak magnetic field, large changes in spin energy suggested by 
changing the spin state of the BEC may give up enough energy to effect a 
nuclear transition in the BEC and at the same time transfer some spin energy to 
nearby nanoparticles to increase their phonic (thermal) energy.

The constraint on the reaction would be only that the spin quanta of the new 
coherent system add up to  an  integral number of quanta of units of angular 
momentum where one unit is equal to Planck’s constant, h. divided by 2pi.   If 
the system lost spin energy. It would show up as added spin energy of EM 
radiation and/or phonic energy (orbital spin energy) of a coupled 
nanoparticle(s) lattice(s).

Such a reaction would transfer nuclear potential energy  to the kinetic spin 
energy of the surrounding materials (thermal energy and EM radiation) 
consistent with an increase of entropy and the 2nd Law of TD.


Bob Cook

From: Axil Axil<>
Sent: Saturday, August 19, 2017 10:59 PM
To: vortex-l<>
Subject: [Vo]:Activating LENR in the Quark Reactor.

​Researchers from Crete have just discovered that if a polariton BEC is 
squeezed between two metallic contacts, and excited by applying a tiny voltage 
pulse over these contacts they could change the spin state of the condensate.  
Because all particles in a BEC occupy the same quantum state, the whole BEC 
responds in unison, assuming one of the two spin states, up or down. This 
process operates like a memory cell, and the information is kept in the spin 
state. This sounds like a possible LENR activation stimulant that might apply 
to the Quark reactor.

They use extremely low power in the voltage pulse to switch the optical state.  
The switch is actually bistable. The voltage is only required to switch the 
device between states, and the total energy required is just 0.8 femtojoule.

The other find was that the light emitted by the polariton BEC demonstrates 
clarity of the optical signal. This signal has a pure, 100-percent polarization 
state, in contrast to spintronics, where you have both states, and one state is 
stronger than the other, This switch mechanism might be a result of the KERR 

The activation stimulus changes the magnetic nature of the polariton BEC so 
that it emits a pure monopole magnetic beam. A typical polariton lasts for just 
a few picoseconds so this activation signal must be reapplied at a rate that 
can activate the new polaritons as they are reformed.

Another indicator that the Quark reactor is using this polariton activation 
process is the nature of the light that it emits. If the light that the Quark 
reactor emits is in a pure, 100-percent polarization state​, we know that Rossi 
is using a polariton BEC in the Quark reactor and a high frequency low powered 
activation signal.

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