Course Nine, Session 14

Light-Cone-Gauge eigenstates always have quanta that twist to one extent or another.  Since there are a limited number of transversal, orbital, and/or radial components to the light-cone-gauge eigenstates of superstrings, the distance that strings move transversally, orbitally, and/or radially per instanton is controlled by the quanta-based-twists of the given superstrings' associated first-ordered-light-cone-gauge eigenstates which is controlled by both the region that the strings cycle thru,as well as the point commutative forces that act upon the strings and their associated second-ordered-light-cone-gauge eigenstates.  This is also to be considered along with what tori-sector-region is activated.  The more norm-states that act upon the mentioned superstrings, along with their associated light-cone-gauge eigenstates -- with limited spuriousnes inactivated -- (Since the operand of the world-sheet propagation is harmonic due to the cohesive normalizations of the corresponding Planck phenomena.) -- the faster the related strings and Planck phenomena will travel.  Not only that, but also, the corresponding substringular travel will not form excessive dilatons.  Light has an operand of world-sheet propagation that is harmonic on account of the smooth relationship of differentiating electric and magnetic fields.  Travelilng smoothly at over the speed of light has harmonic operands of world-sheet propagation.  This is because the radial, orbital, and transversal differentials are smoothly covariant.  This happens when phenomena that moves in a smooth or hermitian kinematic Fourier differentiation over the speed of light has harmonic operands of world-sheet travel.  Fast speeds just under the speed of light tend to cause relatively high, non-abrasive topological twists of light-cone-gauge quanta.  This tends to happen with a more anharmonic operand of world-sheet propagation when this speed is occuring via a tree-amplitude-based directoralization does not smoothly differentiate in a kinematic manner, over time, with a radial component.  Thus, light-cone-gauge quantization is constantly covariant throughout the Continuum during any discrete Fourier Transform.  Session 15 is expected to be revealed tomorrow!