Locked law

Updated RBFL gravity statement.

The theory page keeps the acceleration law separate from the detector. The detector estimates A_b; it does not alter the law.

3D field expression

g⃗_RBFL(x,t) = g⃗_b(x,t) + A_b(x,t) √(a_φ|g⃗_b(x,t)|) ĝ_b(x,t)

Here g⃗_b is the baryonic field direction and magnitude, a_φ is the phase-saturation acceleration scale, and A_b is the baryon-derived phase-amplitude operator.

Radial projection

g_RBFL(r)=g_b(r)+A_b(r)√(a_φg_b(r))

This is the rotation-curve observable version. It is a projection of the 3D law, not a 1D replacement for the theory.

Locked outer limit

v_f⁴=GM_ba_Θ, a_Θ=A_lock²a_φ

When the outer field reaches a locked phase state, the same law reduces to the fixed outer scaling.

Detector stack

A_b(x)=A_lockS_phaseD_phaseH_phaseG_rotB_switch

S_phaseDensity saturation / phase strength.

D_phaseCoherence and gradient degree.

H_phase3D height/envelope factor.

G_rotCentral-node rotational drag/deformation.

B_switchBoundary and switching recognition.

Important: Lensing arcs, wide binaries, timing beat clues, and event-band parameters belong to the Phase Detection Unit. They are not inserted as new law terms.