A synchrotron, (not to be confused with a cyclotron), is a device that is used to study microscopic particles, via an electrical basis of multiplicit electron-based emission, that would here involve electrons that all move in a process of a relatively steady rate -- when the extrapolated given arbitrary common rate of electrical emission is here to be taken at the same respective speed -- as taken through the vantage-point of the conicenter of the coniaxial of the said synchrotron. As with cyclotrons (as here to be compared with synchrotrons), the electrical emission that I have just eluded-to -- is kinematically functional, even though the outer elliptical-based volume of that directly corresponding multiplicit circular dual-conjugated rhombus, -- where the correlative electrons that are here to be used to detect any microscopic aberrations -- down to any viable atomic-based quadrapole, are all constantly accelerating, via the condition that these are all constantly changing direction. The eluded-to Majorana-Weyl-Invariance of such a case, is then to be made covariant, in terms of the integrable Lagrangian-related particles that come up here -- to work to form both the conductivity and the capacitance of the said synchrotron. Each of the here surrounding correlative eigenstates of such so-eluded-to particles that may be extrapolated -- in so as to be proximal local to the specific path of the earlier mentioned Lagrangian, is to operate here as I have said -- to where such particles that may be determined in so as to have a relatively high expectation value of being in the said Lagrangian-based path, are to then to tend to be externally Gliosis to its immediately adjacent locus, as such directly corresponding particles are here to work to form a respective quantific whole of a relatively steady-state electrical pulse, that works to map-out the correlative tracings of any directly corresponding microscopic existence and activity that may be gauged of, again, in such a manner as to having at least some probability of existing at a relatively confined locus, that may be potentially gauged with at least some sort of accuracy, down to a locus that may be viable in extrapolation down to an atomic-based quadrapole.
I will continue with the suspense later! To Be Continued! Sincerely, Samuel David Roach.
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