You can probably see the pattern of what happens to a photon, that has just become entropic -- for the immediately ensuing iterations of group-related instanton, if the said photon does not once again scatter upon another holonomic substrate of physical phenomenology in the meanwhile. For the fourth set of 64 consecutive iterations of instanton that the said entropic photon is going through, starting upon its direct impact upon another phenomenology, it will work to bear what may be described of as having holomorphic torsional-based eigenindices that will bend in a hermitian-based manner, in up to three of the ten correlative coniaxions that are related to the spatial dimensionality that the said photon is moving through. This is because the so-stated entropic photon will tend to bend here in ten spatial derivatives as it is moving in a minimum of ten spatial dimensions, plus time, over the course of the said entropic photon being in the process of being delineated through time and space. This will then work to decrease the degree of the genus of the so-eluded-to Chern-Simons nature of the so-stated entropic photon -- seeing that it will, during the said fourth consecutive set of 64 said iterations of being "entropic," be Chern-Simons now, in a Lagrangian-based manner, in only seven of the ten spatial coniaxions that it is moving through, instead of being Chern-Simons in a Lagrangian-based manner in eight of such covariant and codifferentiable Fourier-translated coniaxions that are directly related to the ten spatial dimensions that such a given arbitrary photon is going through, as a metrical-gauge-based Hamiltonian operator, as it is tending to change in this Fourier-based process in up to ten spatial derivatives, over time. This will work to cause such an entropic photon to still be partially Yau-Exact. Such a photon will still work to bear here -- what may be deemed of as an abelian or as a Kaluza-Klein light-cone-gauge topology. This will be the tendency of such, during the 193rd to the 256th of such consecutive iterations -- upon colliding with another physical phenomenology, in a Gliosis-based manner at the Poincare level -- if such a photon does not directly strike another orbifold eigenset in a direct manner in the meantime.
I will continue with the suspense later! To Be Continued! Sincerely, Samuel David Roach.
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