Thursday, January 30, 2014
A Little Bit As To The Anharmonic Scattering of Ghost Anomalies
In all cases, when relatively reverse-holomorphic norm-states initially collide with relatively forward-holomorphic norm-states, there will be both a metrical and a Lagrangian based spike -- due to the perturbation that will happen for sure when antiholomorphic norm-states and antiholomorphic norm-state projections strike in a Gliossi manner. Yet, in certain cases, the overall process of the anharmonic scattering of ghost anomalies is relatively hermitian, while, in other cases, the overall process of the anharmonic scattering of ghost anomalies is relatively Chern-Simmons. This is in both the cases of metrical delineation and of Lagrangian delineaton, that is incured by the format-bases of Yakawa wave-tug/wave-pull that are brought into action when antiholomorphic-based norm-states and norm-state projections are altered in the multivarious manners that such activity may occur when there is a divergence from the initial path-based Lagragian eigenstates of two reverse-chiral phenomena at the Poincaire level. When a superstring is traveling via a Noether-based flow, the activity of the Gliossi contact that exists in-between the said given arbitrary superstring and the norm-states that theses "bump into" bears a relatively abelian geometry, over a relatively transient duration of a sequential series of iteration of group instanton -- in which ghost anomaly-based indices are formed. This just mentioned genus of a harmonic scattering of norm-state projections works to form an equal and opposite reaction of those relatively reverse-holomorphic norm-state projections to bear a topological sway that is homotopically of an even chirality -- relative to the relatively static delineatory basis of those ghost anomaly-based indices that the eluded to reverse-holomorphic norm-states strike at a later metric, in so as to anharmonically scatter the said ghost anomalies that are pertainant here. This means that, here, the parity of the correlative reverse-holomorphic norm-states that strike the correlative forward-holomorphic norm-states of this given case will bear a trivially isomorphic symmetry, that is curved with a congruent basis of concavity -- when in terms of the respective Ward-Caucy bounds that is inherent to this given arbitrary case. The general flow of the Lagrangian of the directly related forward-holomorphic norm-states will bear an even symmetry with the general flow of the Lagrangian of the directly related reverse-holomorphic norm-states, in either case, though. Yet, if a given arbitrary superstring is tachyonic at any given locus in which it is kinematically differentiating over time, the superstring will have a Yang-Mills light-cone-gauge topology -- a non-abelian topology. Via the activity of the Rarita Structure, in this case, the non-abelian topology of the said superstring of this case works to cause the topological curvature of the relatively reverse-holomorphic norm-state projections -- that later anharmonically scatter those ghost anomalies that the eluded to superstrings had just formed -- to bear a non-abelian wave-tug/wave-pull upon those ghost anomaly-based indices that these strike. This means that the eluded to ghost scattering Hamiltonian operators will bear an odd chirality that is of a non-trivial isomorphic genus -- that is also of a reverse Ward-Caucy-based concavity. The angling of the Gliossi-based contact of ghost scattering Hamiltonian operators will always bear some sort of a Ward-Caucy supplimental angling of 22.5 degrees upon the directly corresponding ghost anomaly-based indices that these strike. As an ansantz, if the Hamiltonian operation of a ghost anomaly index is of a relatively cross-product basis, then, the Hamiltonian operation of the norm-state projections that scatter the eluded to ghost anomaly will be of a relatively dot-product basis. This is more of a full explanation as to why a tachyonic-based flow of substringular activity forms more of a perturbative and Chern-Simmons-based anharmonic scattering of ghost anomalies, while, a Noether-based flow of substringular activity forms more of a hermitian-based anharmonic scattering of ghost anomalies. I will continue with the suspense later! Sam Roach.
Posted by
samsphysicsworld
at
10:23 AM
Labels:
Chern-Simmons,
Gliossi,
Hamiltonian,
Lagrangian,
Noether,
Poincaire,
Ward-Caucy
Subscribe to:
Post Comments (Atom)
No comments:
Post a Comment