FTAAN, Session 5

Gluons normally have an Anti-De-Sitter/De-Sitter gravitational pull that causes this sub-atomic energy to glue the other sub-atomic particles that comprise protons and neutrons to stick together so as to form protons and neutrons that are the sub-atomic neucleons of the nucleous of an atom. Right before each iteration, there is the beginning of an instanton quaternionic-field impulse that happens to both the particles of the ultimon as well as the partially of the stringular encoder section of the Overall-Physical portion of the Space-Time-Continuum. The instanton-quaternionic-field-impulse is always holomorphic for forward time moving particles of he ultimon and is always antiholomorphic for backward time moving particles of the ultimon. The instanton-quaternionic-field-impulse is always holomorphic for forward time moving particles of the stringular encoders of the Overall-Physical portion of the Space-Time-Continuum, and this impluse is always antiholomorphic for backward time moving particles of the stringular encoders of the Overall-Physical portion of the Space-Time-Continuum. With gluons, the substrings are going thru the beginning of the instanton-quaternionic-field-impulse before the core of BRST, the skubstrings differentiate in a Chern Simmons manner that is virtually hermitian and perturbative so that an Anti-De-Sitter gravitational mode may be formed that fluctuates "up" and "down" relative to the norm to the given path of the two-dimensional strings as these fluctuate towards the core of BRST. This fluctuation is in 26-dimensional Minkowski space, bringing in gthe gluonic energy to tie together the sub-atomic particles that make up protons and neutrons. The subsequent De-Sitter gravity during Yau-Exact conditions at the core of BRST keeps neucleons from apart.