The relative tense of the non-Lorentz-related compactification of mini-stringular segmentation, that is of any given arbitrary Fadeev-Popov-Trace eigenstate, is to bear a scalar amplitude of being of a factor of five away from being fully compactified at the beginning of BRST. Such a lack of compactification, works to allow for the feeding-in of mini-stringular segmentation -- as is it is to ever be necessary. Such an eigenstate of this general genus of trace, is to be virtually closed at each endpoint. The correlative Fadeev-Popov-Trace eigenstate, that is correlative to a one-dimensional superstring of discrete energy permittivity, is to bear five second-order light-cone-gauge eigenstates, that are here to be inter-woven with the correlative superstring, whereas, the correlative Fadeev-Popov-Trace eigenstate that is correlative to a two-dimensional superstring of discrete energy permittivity, is to bear ten second-order light-cone-gauge eigenstates, -- that are inter-woven with the correlative superstring. This is not to be confused with the Ward-Cauchy-based condition, that any Calabi-Yau state will tend to move through between four and 32 spatial dimensions plus time -- per each ensuing successive series of group-related instanton. A typical superstring of discrete energy permittivity that is not of a hook-like string, will tend to iterate at BRST, -- in a tense of what is to act as being of either one or two spatial dimensions plus time. Yet, over the course of both the ending portion of instanton, as well as during the generally unnoticed duration of Ultimon Flow, -- any respective superstring will be moving through a Hamiltonian operand, that will here work to include multiple ulterior spatial dimensions besides the generally related ones that I have just eluded to.
I will continue with the suspense later! To Be Continued! Sincerely, Samuel David Roach.
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