Experimental Test Plans
The Harmonic Coherence manuscript outlines experimental signatures that can be tested with current or near-term instrumentation. Each test plan is framed to allow comparison with null hypotheses under standard models and to support independent replication.
Optical Lattice Clocks
Place two ultra-stable optical clocks at different gravitational potentials and measure phase drift over extended windows. The target signal is an additional coherence-linked contribution beyond baseline relativistic redshift, estimated through differential analysis and repeated calibration cycles.
Vacuum Coherence Collapse
In ultra-high vacuum systems (for example, Bose-Einstein condensates or supercooled lattices), monitor for abrupt decoherence events under tightly controlled environmental conditions. The model predicts a threshold response tied to phase variance, which can be assessed with blinded control runs and independent noise characterization.
Gravitational-Wave Interferometry
Coordinate analysis pipelines across observatories (for example LIGO, Virgo, KAGRA, and future space-based systems) to test for correlated phase structures that are not captured by standard waveform fits. Any detected residuals would require cross-instrument consistency checks before model attribution.
Neutrino Oscillations
The framework evaluates a small additional phase term in oscillation probability. High-precision neutrino datasets can be re-analyzed for this effect using standard parameter-estimation methods and explicit uncertainty propagation.
Additional Tests
Additional candidate programs include controlled quantum-simulator benchmarks, collider-sideband analyses, and cosmic microwave background residual studies. Detailed equations and protocol assumptions are available in the manuscript. For context, see the Harmonic Coherence overview and Latest Work.