Monday, October 10, 2016
The Third Part Of Session 2 Of Course 20 -- Calabi Manifolds And Calabi Interactions
The light-cone-gauge topology that is directly associated with a photon, is of a Yang-Mills, or, in other words, is of a non-abelian light-cone-gauge topology. This works to mean -- that those second-ordered light-cone-gauge eigenstates, that work to form the holonomic substrate of the light-cone-gauge eigenstate, that works to inter-bind any one respective given arbitrary Fadeev-Popov-Trace eigenstate to the directly correlative superstring of discrete electromagnetic energy permittivity of any respective case, will tend to bear a Laplacian-based Ward-Caucy condition -- as to working to bear a sinusoidal delineation -- when this is taken as a Fourier-translated standing wave basis, via which there is a Clifford Expansion as to the scalar amplitude of the correlative mini-stringular segmentation, that works here, in so as to work to form such so-eluded-to second-ordered eigenstates, during the immediate Ward-Caucy condition that is related to the here proximal localized eigenstate of the correlative Polyakov Action. Yet, think about the Ward-Caucy-based conditions of the delineation of a superstring, during the course of any one respective iteration of BRST, in which the discrete particle-based quantum of energy permittivity is here to bear a relatively Laplacian-based displacement relation to the discrete wave-based quantum of energy permititvity, of which is to here bear a relatively Laplacian-based displacement relation to the discrete particle-based quantum of energy impedance, of which is to here bear a relatively Laplacian-based displacement relation to the discrete wave-based quantum of energy impedance. This would then work to mean, that the Laplacian-based inter-relationship of those zero-norm-state-projections -- that are to here act as two different sets of individually taken mini-stringular segmentation, that is upon both the respective superstring of discrete particle-based permittivity and upon the respective counterstring of discrete wave-based permittivity, is to bear a Fourier-translated Ward-Caucy delineation, that is to work in a smooth-curved nature at the region that is most proximal localized at the Gliosis cite of contact, by which there is to here be a Yukawa-based contact of each said set of zero-norm-state-projection upon the two so-eluded-to tenses of discrete energy permittivity, -- in such a manner to where such a hermitian tendency of contact is going to then tend to bear a local wave-tug topology, that will then be of a non-abelian nature, over those correlative sequential series of group-related instantons, by which the Fourier-based activity of the Fujikawa Coupling via the Green Function is to happen -- so that discrete electromagnetic energy permititivty is to here be formed from discrete kinetic energy permititvity, that is bent in a hermitian-based manner, as may be extrapolated by the said Green Function, over time. Such a so-eluded-to torsioning upon the holonomic substrate of the so-eluded-to eigenstates of zero-norm-state-projection, may then here work in so as to act, via the said Fourier-based activity of the Fujikawa Coupling, via the Ward-Caucy-based Laplacian condition of a trivially isometric assymetry, by which the earlier stated non-abelian geometry of the so-stated zero-norm-state-projections, that are proximal localized at that substringular region that is Yukawa to that motion that is Ward-Caucy to the said superstring and its couterstring, of which tends to work here, in so as to form a tense of a supplemental wave-tug/wave-push, that will then operate in such a Hamiltonian-based nature, by which the resultant Gliosis-based push of the said zero-norm-state-projections will then be able to work to bear a Yukawa-based torsion that will ironically act in an abelian-based manner. I will continue with the suspense later! To Be Continued! Sincerely, Samuel David Roach.
Posted by
samsphysicsworld
at
12:34 PM
Labels:
BRST,
Fourier,
Gliosis,
group-related instanton,
Hamiltonian,
Laplacian,
Polyakov Action,
suprstring,
Ward-Caucy,
Yang-Mills,
Yukawa
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