Calibration Report: 36+1 Coil Rotational Detector with Table Rotation Asymmetry

We present the calibration parameters for a 36+1 coil rotational interferometer designedto detect scalar torsion fields predicted by the Universal Applicable Time (UAT) and UnifiedPrinciple of Causality (UPC) frameworks. The detector employs thirty-six peripheral coilsarranged with a 10◦ base phase step, a 7% table rotation asymmetry, and a central observercoil with a fixed gain. Logarithmic phase modulation is governed by the torsion parameterτ =0.3697. Numerical simulations yield an optimal central coil gain of 1.9694, resulting inan RMS saturation of 0.7050 (99.70% of the theoretical causal buffer limit 0.7071). Thisconfiguration offers a robust, easily calibrated alternative to the 8+1 design, with enhanceddirectional sensitivity and simplified hardware requirements.Keywords: scalar torsion, dark matter, phase interferometry, 36-coil array, table rotation asymmetry