Any Noether-based superstring, that is of a mass-bearing nature -- will tend to exist in a Calabi-Yau manifold. So, if the mass-bearing superstrings of an f-field, that move through anywhere between four and ten spatial dimensions plus time, or, if the mass-bearing superstrings of a d-field, that move through anywhere between six and ten spatial dimensions plus time -- is to be pushed through such a so-eluded-to Lagrangian-based Hamiltonian operand, over the directly corresponding Fourier Transformation, it will then tend to bear those spatial coniaxions of the correlative holomorphic-based torsional eigenindices, that will tend to bend in a hermitian manner, in as many spatial dimensions as the number of derivatives that it is changing through. Yet, in so long as such said mass-bearing superstrings are not being propagated in a tachyonic manner, this may only tend to happen in up to the range of ten spatial dimensions plus time. If either an f-field or a d-field is to be pulled in a Noether-based manner, through a Lagrangian-based Hamiltonian operand that will here work to involve more than 10 spatial dimensions plus time -- then, those holomorphic-based torsional eigenindices that are to thence be formed is the process of forming singularities that are cohomological-based in nature, this will then tend to form at least some Lagrangian-based Chern-Simons singularities -- over that multiplicit Fourier Transformation, in which such mass-bearing superstrings, -- as to thence be propagated, over time.
I will continue with the suspense later! To Be Continued! Sincerely, Samuel David Roach.
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