Part One Of Session 12 Of Course 12

One-Dimensional superstrings are able to close to form two-dimensional superstrings via the Fujikawa Coupling.  Fujikawa Couplings are a type of a Yakawa Coupling.  Yakawa Couplings are the touch, rub, and curl of superstrings and mini-string segments upon each other.  Stringular encoders do not touch superstrings of discrete energy permittivity in a Gliossi manner.  Stringular encoders to not touch, rub, and curl upon one another in the manner that superstrings of discrete energy permittivity do.  Also, stringular encoders do not touch, rub, and curl upon each other in the manner that discrete energy impedance do.  When two-dimensional superstrings become one-dimensional superstrings, this process is also a Yakawa Coupling, since the ends of the directly associated arbitrary two-dimensional strings given here that become undone rub upon one another to allow these given ends to separate to allow what was initially a two-dimensional superstring to then become a one-dimensional superstring.  This process of two-dimensional superstrings working to become one-dimensional superstrings may, in a way, be considered to be a Fujikawa Decoupling, since the closed string, or, the two-dimensional string, is decoupled to form the said one-dimensional string.  Here is how Fujikawa Decoupling works.:  A closed string iterates a certain number of times  over a successive series of instantons from within the Ultimon.  Let us say that the closed string that I just mentioned is made up as a boson that is here in this case a photon of light.  The mentioned light is transferred into electricity in this given arbitrary case by some physical interaction.  When electrodynamic energy is transfigured into electrons -- and electricity is a flow of electrons --, certain bosonic superstrings are here converted to an extent into certain fermionic superstrings.  This is because photons are a bosonic format of superstrings, while, the plain kinetic energy of electrons is a format of fermionic-based superstrings.  As an anzantz, the mass of electrons is composed of certain alterior bosonic superstrings.  I will continue with the suspense that now exists here.  I think that I have the readers enthralled by the climax of the plot that I am eluding to here.  I will be back soon!  Sam Roach.