Converging Phenomena From Parallel Universes

Let us initially consider a set of many orbifold eigensets, that are each individually taken -- as distinct given arbitrary respective orbifold eigensets, that are each from different universal based settings.  Let us say, that -- for each of the said orbifold eigensets that are each from different universes -- there is a Hamiltonian operator that acts as a group-attractor, that all work to pull each of these said individually taken sets of superstrings that operate in so as to perform one specific function, per each of the said individually taken orbifold eigensets -- in a manner that works in so as to pull the holonomic substrate of the said orbifold eigensets together, into a proximal localized set region -- that is of a relatively tight Laplacian-based setting, over a relatively transient duration of time.  Let us then consider such an interaction, as the Fourier-based activity of the kinematic motion of a certain set of orbifolds, that are initially relatively spatially separated -- to be brought into the same general substringular region -- by the Fourier-based activity of a separate physical entity, that works to cause the Ward-Neumman constraints of each of the different given arbitrary individually taken orbifold eigensets, to be converged towards a region that is much more proximal and of a localized conformally invariant-based setting.  Let us next consider the condition that would exist, if each of the then brought relatively close together orbifold eigensets -- were to still each work to bear a different tense of a Gaussian-based Li-Algebra spatial-related setting.  This would mean, that -- although each of these said orbifold eigensets were to then be spatially convergent, in a relative tense, -- the Fourier-based activity of each of the said orbifold eigensets, would still not be viable upon each other, over a relatively transient duration of time.  To Be Continued!  Samuel David Roach.