This paper verifies that a photon eradiated Bose-Einsteincondensate will cut the frequency of incoming photons by dividing that frequency between N numbers of atoms.
http://arxiv.org/pdf/1203.1261v1.pdf On Sun, Jun 2, 2013 at 5:47 PM, Daniel Rocha <[email protected]> wrote: > I never understood how Kim's BEC get rid of the gammas. > > > 2013/6/2 Kevin O'Malley <[email protected]> > >> If LENR is the result of BECs like Y E Kim's theory predicts, then we >> will have a relatively straightforward way to set up and capitalise on this >> fifth state of matter. The other 4 states are Solid, Liquid, Gas, and >> Plasma. To expect an atom to behave in the same fashion while in one state >> as it does in the other is obtuse, yet that is what modern physicists >> insist on when they say that the nuclear fusion branches for plasma are the >> same as for BECs. >> >> On Sat, Jun 1, 2013 at 10:26 PM, Axil Axil <[email protected]> wrote: >> >>> >>> >> >>> >>> *Rydberg excitation of a Bose-Einstein condensate* >>> >>> >>> >>> Any nuclear reaction that produces a gamma that occurs in a BEC will >>> undergo frequency reduction based on the super-atom formula >>> >>> >>> >>> Gamma frequency = Square root (Number of BEC atoms)(Thermalized >>> frequency) >>> >>> >>> >>> The frequency of the gamma will be shared by N BEC member atoms. >>> >>> >>> >>> To conclude this discussion with an example, the BEC of positive >>> mirrored ions in the dipole ensemble can be considered a huge positive >>> particle effectively a billion times larger than a proton. But this >>> super-positive particle is only a few nanomenters away from a give nucleus. >>> This short distance exposes the localized linear volume to the full force >>> of the EMF. That unfortunate nucleus would experience powerful disruptive >>> EMF charge amplification which would make the space/time in the local >>> nano-volume that the nucleus lived in a killing field for the nuclear >>> forces that hold the nucleus together. >>> >>> >>> >>> If the BEC is scalable, how powerful can a Entangled Dipole EMF become? >>> I can’t wait to find out. >>> >>> >>> >>> Reference: >>> >>> >>> >>> http://arxiv.org/pdf/1212.0135v1.pdf >>> >>> >>> >> >> > > > -- > Daniel Rocha - RJ > [email protected] >
