Isotropically Stable Second-Order Light-Cone-Gauge Eigenstates, Working To Result In Isotropically Stable First-Order Light-Cone-Gauge Eigenstate

 When a cohesive set of covariant second-order light-cone-gauge eigenstates, are here to vibrate in their propagational mode, in unison, this will often tend to facilitate the general physical attribute, of isotropic stability, from among the inferred constituency of such a cohesive set of eigenstates, to where, this will often, in turn, tend to consequently result, in increasing the general tendency of isotropic stability, in the eminently associated respective first-order light-cone-gauge eigenstate, of which such an earlier inferred set of second-order light-cone-gauge eigenstates, are here to have worked to comprise. This will thereby often tend to work to increase the probability, that the eminently associated discrete quantum of energy, of which is here to be expressing such an inferred tense of a gauged-action, will thus be more likely to be gauge-invariant, as this is here to be taken, over a respectively taken Fourier-Related-Progression. SINCERELY, SAM ROACH,