When one is here to be considering the Fourier-related motion of a set of mass-bearing neutrinos, -- the cohomology that such a said phenomenology is thus to tend to form, will bear a silicone-like shape. Please bear with me. Consequently -- such a cohomology of a set of mass-bearing neutrinos, will bear a toroidal-like disk shape, at the general locus that is relatively most proximal to the so-eluded-to core-field-density, that is of the respective set of neutrinos that are here to perform one specific given arbitrary function, -- that is of this given arbitrary case scenario. Furthermore -- if one were now to take a Laplacian-related "snapshot" of the said cohomology-related eigenstate, of such a respective case, -- as one is to progress at analyzing the said eigenstate, as one is to extrapolate what is here being mapped-out in the correlative forward-holomorphic direction -- that is to be of such a given case, the correlative cohomology is to then to bear a hermitian-related decrease in its cross-sectional diameter, -- until, over a relatively transient distance, such a cohomology is then to apex to the "point" of working to bear one first-order point particle at the said forward-holomorphic tip of the respective cohomology, that is of the said set of mass-bearing neutrinos, that are of this given arbitrary respective case scenario. This would mean, then, that the set of mass-bearing neutrinos, may work to bear a cohomology that works to bear a conical shape, that may be thought of as being configured as a multidimensional silicone-related holonomic substrate, that is here to work to bear a net abelian geometry over time.
I will continue with the suspense later! To Be Continued! Sincerely, Samuel David Roach.
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