Spinning Hermitian Kahler Manifold

 A holomorphic impelled spinning hermitian Kahler Manifold, tends to work to bear a stronger angular momentum, than an otherwise analogous holomorphic impelled hermitian Kahler Manifold, that is not spinning. I WILL CONTINUE WITH THE SUSPENSE LATER! SINCERELY, SAM ROACH.(1989).

The stronger that the Slater-Based Incursion is to be, as physically applied, upon the net metric eigenstate, of a given arbitrary kinematically transferred Kahler Hamiltonian Operator, the stronger that the respective Poincaré Incursion may often tend to be, that is here to be physically applied, upon the net time-related eigenstate, of the respective eminently associated Ricci Flow, of which is here to be spontaneously exhibited, by the said Kahler Hamiltonian Operator, to where the consequential resultant implicit team, of corroborative mass-bearing eigenstates, may thereupon tend to be enhanced in its probability, of becoming of a tachyon-related nature.  

Ultraviolet generation, may often tend to augment a viable tense of entropy; While Ultraviolet degeneration, may often tend to attenuate a viable tense of entropy.  

When two different and distinct, kinematically propagated, covariant Dolbeault-Related cohomology-based entities, of which are here to be exhibited, by an eminently associated Kahler Hamiltonian Topological Manifold, are to work to bear a recursively stable spin-orbital Lagrangian-Based Expansion, the given arbitrary coni-axion, of which is here to be subtended between the covariant delineation, of the holonomic flow, of the implicit dual-state of Dolbeault cohomology-based interdependent interaction, that is here to be eminently related to the covariant spin, of the implicit team of Hamiltonian Topological Entity, may often tend to work to bear,  a relativistic recursively perturbative polarization, in the corroborative delineation of mirrored symmetry, as taken along the net covariant kinematically propagated spin-orbital axis, that is to be subtended between the two implied net cohomology-related eigenstates, of which is to behave as a net team of cohomology, as the eminently associated Kahler Hamiltonian Topological Manifold, is here to be physically transferred through space and time.