Neutrinos are comprised of one general genus of mass-bearing superstrings (and therefore Yau-Exact), that are of discrete energy permittivity. Neutrinos are thereby comprised of, in part, by a certain type of Calabi-Yau bosonic string -- that is existent in a Gliosis-based manner, from within the Ward-Caucy bounds of the so-eluded-to orbifold eigenset, that works to operate as the manifold of the said respective individually taken neutrino -- as a genus of a superstring, that is of a p-field that works to alter in its holomorphicity in what would only tend to be in a hermitian manner, over time. This would then mean, that the mass-bearing superstrings that work to comprise the so-stated neutrino, are closed-loops that act as two-dimensional superstrings of discrete energy permittivity, that are configured to the correlative ten-dimensional spatial environment that the said p-field is to here be going through, over time, in a Yau-Exact manner. This then means, that the torsional eigenindices of those mass-bearing superstrings -- that work to comprise neutrinos, tend to always bend in a hermitian manner, over the correlative sequential series of instantons by which such a neutrino would be metrically going through. This would then mean, as well, that if such a string as a neutrino, were to travel through or be propagated through a relatively unitary Lagrangian-based Hamiltonian operand, over time, then, the so-eluded-to neutrino, as an orbifold eigenset, will then tend to not directly bear any Lagrangian-based Chern-Simons singularities -- via any directly corresponding Yukawa-based manner. This would mean, that, the Real Reimmanian-based propagation of any given arbitrary respective neutrino -- will tend to not work to directly form any spontaneous Doubolt cohomologies of a Njenhuis-based nature, in and of themselves.
I will continue with the suspense later! To Be Continued! Sincerely, Samuel David Roach.
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