The PQR framework establishes that coherent form decomposes into exactly three mutually nonrecoverable structures of distinct mathematical type, and separately exhibits a variational actionwhose extremization reproduces the triadic equilibrium and its stability. The framework states,with care, that this action is a reconstruction compatible with the framework rather than a quantityuniquely determined by it. This paper closes part of that gap. We show that once each eld isassigned the mathematical type the irreducibility theorem forces, Pattern a set-indicator, Process anevolution generator, and Rhythm the phase-order of the process, each term of the Spiral action is theunique lowest-order invariant that its eld’s type admits, and the relative sign of the vorticity-lockterm is forced rather than chosen.The result is a conditional rigidity theorem: within a classi ed family of local, lowest-derivative,bounded-below, phase-gauge-invariant scalar densities, the Spiral action is the unique element up tofour positive scale coe cients and the coupling λ, characterized equivalently by role-complete triadiccoupling, algebraic non-propagating Process variation, and the forced phase-stability boundaryc > µ. The admissible class is classi ed rather than stipulated: idempotency of the set-indicatorcaps Pattern at linear order and excludes higher-Pattern couplings as a property of the type, andfor a smoothed indicator the idempotency deviation is shown to be linear in the gradient andboundary-local, leaving the triadic product as the unique role-complete coupling. The same actionis singled out by three independent routes, eld-type classi cation, the phase-stability threshold,and operator-level closure under the weighted variational calculus; the threshold itself follows fromthe forced terms, the curvature of the phase-order response setting the scale of the source but notthe sign of the stability boundary. This promotes the action from a compatible reconstruction to anexpression forced, within the classi ed family, by the type structure the framework identi es as itsfoundational source. The term classi cation, sign structure, and threshold recovery were checkedby symbolic computation
Andrew Lee Johnson (Wed,) studied this question.