Torsion-Coherence Cavity Simulation v2

Cavity Simulation v2

This simulation visualizes synthetic signatures of a torsion-coherence vacuum cavity. It is a numerical model for concept demonstration, not experimental proof.

CST Phase Modulation Vacuum Torsion Strength Boundary Damping Noise Floor

PicoTesla Magnetometer:

Radar Phase Shift:

Thermal Anomaly:

Geometric Stability:

Φ_eff (Geometric Potential):

Show Signals:

Magnetometer Phase Shift Thermal

CSV columns: t, phi, magnetometer, phaseShift, thermal, stability. These values are synthetic and derived from the model equations.

This simulation models expected signatures of a torsion-coherence vacuum cavity, including CST modulation, geometric potential Φ_eff, magnetometer drift, radar phase anomalies, thermal fluctuations without resistive heating, and cavity stability. It visually demonstrates the central prediction: geometry can generate measurable signals without classical force or mass motion. However, simulation alone cannot prove torsion coherence, because numerical models rely on idealized assumptions and boundary conditions. Experimental validation requires an actual vacuum cavity with calibrated magnetometry, interferometry, and thermal sensing. If laboratory measurements later match the predicted waveforms in this model, then experiment confirms the theory and the simulation becomes predictive rather than illustrative.