The Chiral Particle Radiation Hydrodynamics Effect.
The flow of EMF radiation through plasma will separate particles based on their chirality. Since chiral particles migrate at different speeds when exposed to emf radiation, chiral particles will collect into separate regions and then further separate by their charge. This difference in how particles react to deal with photon momentum imparted by emf radiation and the then its subsequent absorption and later release of that energy is called chiral radiation hydrodynamics. For the theory of how EMF radiation can separate chiral particles, see https://www.nature.com/articles/ncomms4307 Lateral optical force on chiral particles near a surface In the SAFIRE experiment, multiple layers of chiral particles form. The emf emitted by the stimulating current flow is retarded and stored in each double layer. This storage mechanism is analogous to the way a wall comprised of many layers will retard a large wave. <http://www.periodicolacampana.com/wp-content/uploads/2014/04/2014_04_21-04foto04-Control-erosi%C3%B3n-biomec%C3%A1nica.jpg> The speed of light in that current flow is greatly slowed in response to the way hydrogen stores and releases that energy at its intrinsic natural resonance. This storage of this energy is amplified in each double layer as the emf energy moves to the outermost double layer until the outermost layer receives and stores an energy balance sufficient to generate hydrogen fusion that produces helium 3. This is the method in which the Radiation implosion based Teller–Ulam design for the hydrogen bomb works. https://en.wikipedia.org/wiki/Radiation_implosion Radiation implosion Tritium is not produced in this fusion reaction since the outermost double layer in which the fusion occurs is comprised of left handed chiral particles. Chiral particle separation insures that no radiation is generated by this fusion reaction. The LENR reaction in SAFIRE When the tungsten probe is inserted into a double layer, the Surface Plasmon Polaritons on the surface of the tungsten is excited through the release of the energy stored in the double layer. This high level of stored energy is converted into a polariton petal condensate as the density of polaritons grows large. The condensate generated by the LENR reaction and the chiral separation of particles in the double layer blocks all nuclear level radiation produced by the LENR reaction.
