Let us initially consider two different given arbitrary orbifold eigensets, that are here to be working to bear a Yukawa-related coupling upon one another -- to where the resultant inferred overall interdependent field, that is thus formed by the consequential kinematic interaction of the two different implied cohesive sets of discrete energy quanta, -- is to be of a nature, that is here to be both covariant, co-differentiable, and co-determinable, over a relatively limited span of time (of which may be mathematically considered in this case, via the application of a correlative Fourier Transformation). If both of the herein stated orbifold eigensets, when individually taken in respect to the other correlative orbifold eigenset of such a given arbitrary case scenario, are to be subtended in the relative holomorphic path of the other respective orbifold eigenset, -- then, the consequential resultant interdependent covariant field, that is thus formed by the Yukawa-related coupling of these two inferred cohesive sets of discrete energy quanta upon each other, will then tend to work to bear a relatively greater absolute value of a scalar magnitude of metric-gauge-related pulsation, -- than if these two different earlier implied interdependent orbifold eigensets were, instead, to not be subtended in the holomorphic path of one another, -- over the durational course of the earlier inferred tense, of a correlative Fourier Transform.
I will continue with the suspense later! To Be Continued! Sincerely, Samuel David Roach.
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