Often, when light strikes a Calabi-Yau manifold (a manifold that is based upon the proximal localized tense of mass-bearing superstrings) -- the shining of electromagnetic energy upon the so-eluded-to respective given arbitrary mass-bearing orbifold eigenset, will then tend to absorb a certain quantum of energy, that may here be derived from the Gliosis-based impact of the initially stated electromagnetic energy upon the holonomic substrate of the electrostatic field -- that is directly associated with the electrical-based field of those electrons that are here to be orbiting around the nuclei of those atoms that have here just been struck by the inferred electromagnetic beam. Ensuing the said potential absorption of energy by the said Calabi-Yau field, certain of those electrons that work here to comprise the relative external-based electrostatic field, that work to form those atoms that work here to form the said Calabi-Yau field -- will tend to then need to release the excess energy that these so-stated electrons have just imbued. This may then work to help at causing these over- energized electrons to then drop back-and-forth, in so as to then work to form photons -- that are then to be propagated away from the cite of the stated Calabi-Yau field in question.
I will continue with the suspense later! To Be Continued! Sincerely, Samuel David Roach.
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