We study a six-channel system built from three ingredients:Fibonacci channels (ordered structure), a Pell channel (defect/curvature), and Ramanujan coupling (vacuum interaction). kappa: connects the vacuum to all channels and spreads states across space beta23: directly links the defect channel with a neighboring ordered channel Three operators are defined: position, density, and mass.Mass is constructed by applying the channel interaction twice, so it naturally moves amplitude between channels. The mechanism appears clearly in their relations: Position and density remain aligned when mixing is weak Position and mass do not align once vacuum coupling is active (mass becomes non-local) Density and mass align only when beta23 is zero This identifies beta23 as the unique switch: When beta23 = 0 → density is preserved (static regime) When beta23 ≠ 0 → density is redistributed (dynamical regime) The reason is structural:mass acts as a two-step loop operator, sending a state from one channel to another and back.If the defect channel is connected, this loop no longer returns the system to its original configuration, producing a mismatch between mass and density. As a result, mass is not a passive quantity but an active generator of channel redistribution, and the defect channel controls when this redistribution becomes physically relevant.
Jeong Min Yeon (Tue,) studied this question.