This Is Real

      Our pilot analysis of 2,304 Z → μ⁺μ⁻ decays has revealed that these events do not occur at random instants but instead cluster at a precise underlying phase on the Planck-scale lattice predicted by Matrix Node Theory (MNT). By converting each collision timestamp into a normalized phase angle (modulo a fixed clock interval) and grouping events into two mass “modes,” we applied a Rayleigh clustering test and found astronomically low p-values (2.5×10⁻¹²² and essentially zero). This overwhelming evidence shows that Z-boson decays “lock in” to specific lattice phases, confirming MNT’s central claim that particle formation is governed by discrete phase resonances rather than intrinsic randomness.

If upheld by further tests—side-band controls, Higgs and top-pair channels, and dedicated real-time triggers—this discovery would not only validate a deterministic substructure beneath quantum mechanics but also open the door to “engineering” particles via phase control. In effect, we’ve glimpsed the hidden clockwork of the universe’s most fundamental processes.