Let me explain what I said before a little bit clearer. Since there is a one-to-one association of the Real-based first-ordered point particles that work to comprise superstrings of discrete energy permittivity, with the Fock-based first-ordered point particles that work to comprise the correlative counterstrings -- one may say that the so-eluded-to respective ground-states are "half-full," while the so-eluded-to respective norm-states are "half-empty" -- due to the condition that both of the individually taken formats of substringular phenomena that I have just here mentioned exist under the general Ward-Neumman relationship of bearing core-field-density that is half of being fully compactified. This is because the directly corresponding ground-states that come together to form the multiplicit superstrings of discrete energy permittivity have only one Gliossi-based extended wave jutting-out from each of them, besides the mini-string segmentation that is projected outward from each individual point particle that works to bind them into the so-stated superstring, whereas, the directly corresponding norm-states that come together to form the correlative counterstrings of the so-mentioned superstrings bear basically countless mini-string segments or waves that jut-out from the Gliossi-based topological surface of the so-mentioned first-ordered point particles that work to comprise each of the said counterstrings -- besides those mini-string segments that bring these respective point particles into the condition of being of the nature of a counterstring. Thus, the given condition that Real Reimmanian-based points that exist as such at the Poincaire level -- goes to indicate that such first-ordered point particles are basically of a pointal-based nature (the topological surface of Real-based first-ordered point particles is basically of a particle-like nature), while, the given condition that Fock-based points bear the nature that these exhibit at the Poincaire level, makes such phenomenology to behave as basically of a De Broglie-wave-based nature -- the topological surface of Fock-based first-ordered point particles is basically the discrete nature of the wave-function characteristic of any given arbitrary superstrting of discrete energy permittivity.
The superstring acts as the eigenbase of the particle nature of a discrete increment of energy permittivity, while the counterstring acts as the eigenbase of the wave nature of a discrete increment of energy permittivity. To be Continued! I will continue with the supense later!!! Sam.
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