For the first 384 iterations of group-related instanton, once a photon has directly struck another discrete quantum of energy, the scattered photon, when individually taken, is entropic -- and it is then said to temporarily bear an abelian light-cone-gauge topology. This means that the mini-stringular segmentation of the correlative Kaluza-Klein topology, is relatively supplemental and not sinusoidal. This is due to the condition, that the said entropic photon is here to bear a "spring-like" reflexive nature -- that may here to attributed to the directly corresponding kinematic activity of the holonomic substrate of the so-eluded-to light-cone-gauge eigenstate, in so as to respond in a homotopic manner, is so as to not shatter upon a Gliosis-related contact. When electromagnetic energy scatters upon a phenomenon, individual photons strike the externalized core-field-density of individually taken light-cone-gauge eigenstates. Likes repel -- in part due to that adjacent phenomena that are of the same electrostatic general nature, must spin in an assymetric manner -- relative to one another. The said "springing" of the light-cone-gauge eigenstates of photons, works to allow for photons to repel what these had struck directly. So, the thence straightened-out nature of the overall mini-stringular segmentation of the light-cone-gauge eigenstates of electromagnetic energy -- when these scatter upon something -- works to allow for the need for a very transient repulsion of electromagnetic energy from what it had just directly contacted, as it basically is a fractal of what would happen as is according to the Pauli-Exclusion Principle. The "counter string" of discrete energy permittivity, that would here be as is directly corresponding to the here so-eluded-to superstring -- along with the mini-stringular segmentation that works to inter-bind the said counter string with its correlative superstring of discrete energy permittivity, -- acts as a physical buffer to the spring-like action, that is of the light-cone-gauge topology of a photon. I will continue with the suspense later! To Be Continued!
Sincerely, Samuel David Roach.
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