Relatively Slow Versus Fast Formation Of Chern-Simons Singularities

Let us say that one is to have a superstring of discrete energy permittivity -- that is undergoing four consecutive perturbations, in what would otherwise be the Hamiltonian-based motion of the said superstring, as moving through what would otherwise be a discrete unitary Lagrangian-based path.  Let us then say that the so-stated superstring, of which acts alone as one discrete orbifold eigenset, is to bear such a Yukawa-based torsioning -- to where it has what is formed upon it, as the correlative formation of an initial metrical-based Chern-Simons singularity -- of which will here tend to form both a set of Njenhuis Lagrangian-based singularities ( along with its directly corresponding complex roots), and a Real Reimmanian Lagrangian-based Chern-Simons singularity, to where the said superstring is to then be perturbated into what would then tend to be a new path that is moving at 45 degrees in the counterclockwise direction from its initial path, in so as to work to form a renewed tendency of working to bear a re-established holomorphic flow -- that is to then be considered as the so-stated supertring's newly formed directoral base, of what may then be determined as what its holomorphic-based Lagrangian-based path is then to be.  Let us say that there are to be four of such consecutive changes in the holomorphic-based tendencies, that are then to be applicable to what the mean Lagrangian-based path of the superstring is then to be.  If the rate of such a so-eluded-to Fourier-based kinematic activity of perturbation is to be of a relatively gradual tense of succession, then, there is relatively less of a tendency of the respective given arbitrary superstring of discrete energy permittivity to then work to form the Ward-Caucy conditions, of what may here be termed of as an antiholomorphic Kahler condition.  Yet, if the rate of such a so-eluded-to kinematic activity of perturbation is to be of a relatively quicker tense of succession, then, there is to then be a relatively greater tendency of the respective given arbitrary superstring of discrete energy permittivity that I have been discussing here, to then work to form the Ward-Caucy conditions of what may here be termed of as an antiholomorphic Kahler condition.  
I will continue with the suspense later!  To Be Continued!  Sincerely, Samuel David Roach.