The spherical shape of a two-dimensional superstring's field may be considered as many disc-like field partials. These field partials interact with the field partials of light-cone-gauge eigenstates. One of these disc-likle partials may be viewed of as either a washer or an annulus shpae. Take the conter annulus of a three-dimensional stringular field that corresponds to a two-dimensional superstring. We will here consider the annulus section of the said three-dimensional stringular field on account of the condition that this mentioned section is the substrate of the fractal of angular momentum of the field that I have been discussing. The holonomic part of the annulus here bears the angular momentum indices of the three-dimensional substringular field during an iteration of instanton. On the other hand, the interior of the said annulus bears the fractal of a magnetic field in this case, since, it is in this said section of the three-dimensional field that I have been discussing in which the radial momentum of the said field exists. The interior of the said annulus also bears the spin-orbital momentum of the given three-dimensional field of the corresponding given two-dimensional superstring, since, the radial component of the field as well as the spin-orbital momentum component of the field both act as part of the vibratorial component of the said field. The discs I mentioned of the substringular field here that I have described integrate in a Gliossi-Hodge manner to form the overall field of the given two-dimensional superstring. The Laplacian integrand-based discs that contain the central annulus of the described field work to form the central- field-indices of the overall field of the said two-dimensional superstring. The integration of the said disc-like phenomena that come together to help form the said three-dimensional substringular field of the said two-dimensional superstring works to form the integration of the cohesive partial fields of the described overall general field networking that exists in the substringular neighborhood that exists in the given general locus. This general field is the set of mementum indices that interact with the field partials of the corresponding light-cone-gauge eigenstates in order to synchronize in kinematic codifferentiation in such a manner so as to help cause the operation of the said two-dimensional superstring that here, in this given arbitary case, acts as a propagatorial operator in space-time-fabric. Such propagation is caused, in part, by the spring-like activity that is due to the operation of the local light-cone-gauge eigenstates. I will continue with the suspence later! God Bless You, and I will write some more soon!
Sincerely, Samuel David Roach.
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