Same Number Of Partition-Based Discrepancies -- Different Delineation

 Let us say one were here to be comparing the Laplacian-related covariant physical condition, that is here to be considered, between two different discrete quanta of energy, during an iteration of group-related instanton -- that is here to be of a simultaneous nature, when this is here to be considered, via the vantage-point of a central locus.  Both of the two said discrete energy quanta, are here to be exhibiting the same number of spatial dimensions, at their different and distinct covariant individually taken loci of delineation, as well as that both of these said discrete energy quanta, are here to be traveling at the same rate, in relation to the motion of electromagnetic energy. Even though both of the correlative respective inferred superstrings of such a given arbitrary case, are thereby to be exhibiting the same tense of a Lorentz-Four-Contraction, to where both of such said strings will also, as well, work to bear the same number of partition-based discrepancies, -- the comparative delineation, of such an inferred dual tense of partition-based discrepancies, may often potentially work to bear two different and distinct Ward Neumman  distributions -- since the angular momentum of their individually taken directions, via which these two different said distinct discrete energy quanta are to be aimed at, may quite often tend to work to bear a viable difference, in the manner of their variation of their parameters. Therefore; this will thereby often tend to make their distinctively different individually taken light-cone-gauge eigenstates, If these are here to work to bear a different delineation of distribution, when this is in the process, of comparing the overall topological contour, of both of such said respective covariant light-cone-gauge eigenstates, to thereby work to bear two different and distinct covariant structural genre of topological manifold -- as this is here to be in comparison, between these two different wave-related quanta of  discrete energy impedance. SAM.