As two different forming substringular loops are twined upon each other, as a dual-based metric-gauge-related Hamiltonian operator, -- it is that mini-stringular phenomenology, that works to comprise the two said forming substringular loops, that work to come together in a manner of knotting upon each other -- that works to form the earlier mentioned Yukawa-related Ward-Cauchy-based twining. What happens in general, is the following:
Superstringular phenomenology is comprised of by first-order point particles -- that link together or bead together, in so as to work to form either an open substringular strand, an open substringular loop, or a closed substringular loop. (In this case, a set of forming open substringular loops.) The just mentioned first-ordered point particles, are to here to be comprised of by what I term of as mini-stringular phenomenology. The presence of mini-stringular phenomenology may be extrapolated by the presence of zero-point energy. When two different Ward-Cauchy-based eigenstates of topological stratum in the substringular, are to be knotted or twined together at one relativisitic variant spot, -- that mini-stringular phenomenology, that is here to work to comprise the said first-order point particles of the so-eluded-to respective strands or loops that are here to be linked together, are to twirl upon the respective multiplicit dual-state Li-Gaussian-related holonomic substrate of topological stratum, that is in the Ward-Supplemental holomorphic direction, when in retrospective to the alterior inferred dual-state, but in a Ward-Polar torsional homotopic manner -- in so as to form that set of mini Yukawa couplings, that are necesssary -- in so as to help at working to allow for the then needed twining of one substringular Li-grouping upon the other, over time.
I will continue with the suspense later! To Be Continued! Sincerely, Samuel David Roach.
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