Van der Meer scans at the LHC are known as a crucial calibration method for maximizing luminosity. My new paper reinterprets this technical process from the perspective of the Helix-Light-Vortex (HLV) theory.
The work postulates that these scans are more than just mechanical alignment; they are real-time probes of the coherent phase-matching of particle beams, which are modeled as geometric resonance waves in the spiral time lattice (Φ(x,t)). It is argued that the observed patterns in the experimental data—such as periodicity and luminosity bursts—are direct signatures of these geometric resonance conditions.
This paper offers a deeper physical meaning for an established experimental process, showing how high-energy beam interactions can serve as probes for the fundamental geometry of spacetime.