Sunday, April 23, 2017
As To Neutrinos And Direction Of Motion
Neutrinos tend to oscillate, in an isotropic manner, over the course of the correlative Regge Action -- in such a way, that works to cycle between the Fourier-based translation of oscillating in the direction of its homotopic annulus, into then oscillating in the direction of its homotopic edge. This is part of the reason, as to why neutrinos tend to move in a minimum of 12 spatial dimensions plus time. This is one given arbitrary example of the behavior of a mass-bearing superstring, and, mass-bearing superstrings tend to bear a Calabi-Yau manifold. The orbifolds of neutrinos, that iterate over the course of BRST, behave in such a way, to where their angular momentum tend to be in the direction of their annulus. Over the course of such an individually taken iteration of BRST, the edges of the external topological substrate of each correlative component superstring of a neutrino, is to then "spraw" in such a manner -- to where, via the dual action of the given arbitrary manner of the Bette Action and the Polyakov Action of such an arbitrary case, will happen, to where the core-field-density of such a field is to then to work to "attempt" to start to change into a Calabi-Yau manifold. This is part of why neutrinos tend to move as a set of superstrings, that each act as interdependent eigenstates of a Calabi-Yau manifold. If a neutrino is not at those set of iterations of instanton, in which its component superstrings of discrete energy permittivity would otherwise be Gliosis to the Kahler-Metric, then, the so-eluded-to component superstrings of discrete energy permittivity will tend to then form their correlative Calabi-Yau fields, during the correlative ensuing Regge Action eigenstate. I will continue with the suspense later! To Be Continued! Sam Roach.
Posted by
samsphysicsworld
at
11:40 AM
Labels:
BRST,
Calabi-Yau,
cycle,
Gliosis,
homotopic,
manifold,
neutrinos,
orbifolds,
permittivity,
Regge Action,
strings
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