As To The Rarita Structure And Calabi-Yau Manifolds

Most phenomenology that we generally conceive of, is comprised of mass-bearing superstrings that are of the nature of what are either electrons, protons, or neutrons.  This is not when considering the condition of neutrinos.  Individually taken protons, are comprised of two quarks that are bound to one lepton -- via the bonding activity of what are known of as gluons.  Individually taken neutrons are comprised of one quark that is bound to two leptons -- via the bonding activity of what are known of as gluons.  Individually taken electrons are comprised of three leptons that are bound to one another -- via the bonding activity of another genus of of phenomenology that is similar to what are known of as gluons.  Certain phenomenology that is similar but different from mesons, particularly gluons, work to operate in so as to form that activity that is known of as the strong force.  This so-stated general genre that works to inter-bind sub-atomic particles, such as how gluons work to inter-bind certain sub-atomic particles, are the general genus of the substringualr phenomenology -- that is of that holonomic substrate, that may be denoted as the respective given arbitrary eigenstates of the centralized knotting of the Rarita Structure.  When individually taken photons -- of which are the discrete bosonic superstrings of electromagnetic energy -- act, in so as to strike the core-field-density of any given arbitrary mass-bearing superstring, in such a way that is of a Gliosis-based manner, the resulting general genus of interaction may be then described of as a Calabi-Yau interaction.  This then means -- that the general genus of the manifold of any given arbitrary respective mass-bearing superstring of discrete energy permittivity, may be described of as a Calabi-Yau manifold.  In general -- the holonomic substrate that would then directly correspond to the Laplacian-based existence, of a manifold of a mass-bearing superstring of such a said nature -- is one in which the activity of phenomenology such as gluons, via the strong force, is within the Ward-Neumman bounds of its said substringular-based composition.  This then means that the individually taken Calabi-Yau manifolds, tend to be a manifold -- in which the existence of the activity of particle-based phenomenology such as gluons, is Gloisis to the "heart" of the so-eluded-to construction of such a so-stated general membranous texture of substringular phenomenology.  This, as well, then means that inter-bound orbifold eigensets -- that work to bear eigenstates of the centralized knotting of the directly corresponding Rarita Structure delineations -- that are Yukawa to them, at the Poincare level, are ones of such -- to where, when an individually taken discrete quantum of electromagnetic energy is to strike the core-field density of such a general classification of substringular phenomenology in a Gliosis-based manner at the said discrete Poincare level, the resulting interaction will be of the nature of a Calabi-Yau interaction.  I will continue with the suspense later!!!
To Be Continued!  Sincerely, Sam Roach.