Let's say that the discrete spatial dimensionality, that is of one given arbitrary superstring of discrete energy permittivity -- during each successive iteration of BRST -- is invariant, over an evenly-gauged Hamiltonian eigenmetric. The superstring of such a case, may either be a closed-loop, an open-loop, or an open strand. Mini-Stringular segmentation, as always, works to bind it (the so-implied substringular loop-related phenomenology of such a general case) into a tense of homotopy -- in so long as the so-eluded-to substringular topology that is here to be correlative, is not to be frayed by a black-hole. The respective spatial dimensions are here to compactify, right before BRST, And, the respective spatial dimensions are here to decompactify, during the multiplicit ensuing Regge Action. The dimensional compactification and the dimensional decompactification of such a general case, is here to bear a Real Reimmanian scalar amplitude, -- to where the Bette number is, in this general genus of a case, to never to be equal to zero. Let's say that the given arbitrary respective superstring is here to not to work to bear an E(8)XE(8) genus of an oscillation-related tendency. If the given arbitrary superstring of discrete energy permittivity of this general given case, is to act alone, in so as to be of its own orbifold eigenset, and if such a general genus of a superstring so mentioned here -- is to be of a Noether-related nature over time, -- the, the absolute value of the correlative Bette number, is here to be of a value of at least six. This is in so as to work to allow for the correlative gauge-bosons, to have a plausible gain and/or loss here, of a discrete quantum of the directly pertinent homotopic residue -- per each individually taken increment of instanton. You see, the E(6)XE(6) string is both a Hamitonian operator that acts as a genus of a bosonic string, as well as this also being an oscillation-related tendency. The oscillation-related tendency of such a so-eluded-to heterotic string, is here to work to allow -- for what is here to be the added need for gauge-bosons -- to exchange discrete quanta of homotopic residue, as well. The higher the correlative Bette number is, the greater the chance of a superstring to be put into a position -- of either gaining or losing discrete increments of homotopic residue per instanton. This includes the need for gauge-bosons, as well, to either gain or lose homotopic residue -- per each individually taken instanton.
((e^12)/(e^6))/600 is less than one, -- where as ((e^12)/(e^5))/600 is greater than one.
I will continue with the suspense later! To Be Continued! Sincerely, Samuel David Roach.
No comments:
Post a Comment