If cluster fusion resulted in a quark gluon plasma(QGP), a sea of gluons would produce a gluon condensate during the early stages of plasma thermalization. Many gluons would hold the energy of the cluster fusion and because they have formed a condensate, their energies would all be the same.
Near the end of thermalization of the plasma, the excess energy content stored by the gluons would be transferred down the strong coupling between the plasma and the SPP soliton. It may be expected that the two condensates: in the soliton and the plasma would be the same; that is, entangled and coherent. The energy transfer would occur in many small photons that transport the energy content of each gluon as they are expelled by the plasma condensate. The photon transfer may even be done through entanglement with SPP electrons, with no coupling required. Note: Gluon condensates are part of the “Color Glass Condensate” model of QGP thermalization which occurs in heavy ion collisions. See http://arxiv.org/pdf/1107.5296.pdf Bose–Einstein Condensation and Thermalization of the Quark Gluon Plasma Saying it simply, shooting a jolt of magnetic energy into a cluster of atoms will explode the cluster into plasma and it will gradually cool down glowing photons all the while until it is completely thermalized. On Fri, Jun 20, 2014 at 2:33 PM, Axil Axil <[email protected]> wrote: > I realize this is speculation but, there is an assumption about gamma > radiation energy transfer that I want to question. > > The character of gamma radiation is predicated on the small size of the > nucleus that it is derived from. > > But at the time of energy transfer doing cluster fusion of many hydrogen > atoms. the size of the volume of fusion is large, then the corresponding > wavelength of energy release is also proportionally large. > > To frame the concept in an example, if the hydrogen crystal to be fused is > 10 nm In diameter, the wavelength of the released energy would also be 10 > nm. > > > On Thu, Jun 19, 2014 at 12:12 AM, <[email protected]> wrote: > >> In reply to Axil Axil's message of Wed, 18 Jun 2014 16:07:49 -0400: >> Hi, >> > >> http://phys.org/news/2014-06-quantum-mechanism-trigger-emission-tunable.html >> >> "In the paper, which is published in Physical Review B, the researchers >> predict >> that by shining light on a 2D asymmetric nanostructure with a laser that >> is >> tuned at resonance with the electronic transitions that can occur in the >> nanostructure >> >> Read more at: >> >> http://phys.org/news/2014-06-quantum-mechanism-trigger-emission-tunable.html#jCp >> " >> >> ...however there are no electronic transitions that match gamma energies >> of >> several MeV. Though Uranium will absorb x-rays of 115 keV. >> [snip] >> Regards, >> >> Robin van Spaandonk >> >> http://rvanspaa.freehostia.com/project.html >> >> >
