Published November 27, 2025 | Version v1

Falsifiable Predictions of Coherence–Field Gravity: A Clear Experimental and Observational Test Suite

Authors/Creators

Description

This paper outlines the concrete observational and experimental tests capable of falsifying Coherence–Field Gravity (CFG). Because CFG introduces a universal A/rA/rA/r acceleration term sourced by baryonic decoherence, the framework produces sharp, model-independent predictions across Solar System scales, wide binaries, galactic dynamics, cluster lensing, and cosmological structure formation.

The paper identifies decisive falsification points, including:

  • the absence of any 1/r1/r1/r-type deviations in Solar System dynamics,

  • smooth, non-MOND behavior in wide binaries at 5,000–20,0005{,}000\text{–}20{,}0005,00020,000 AU,

  • a universal galactic transition radius of 0.25–0.350.25\text{–}0.350.250.35 kpc,

  • cluster-scale mass profiles that should not resemble NFW halos,

  • unmodified BAO scales and CMB acoustic peaks,

  • a slightly suppressed late-time growth factor.

These signatures form the first structured test suite for the CFG framework. Each prediction follows directly from the core acceleration law and requires no free parameters or galaxy-by-galaxy tuning.

Related Works:
Part of the Coherence–Field Gravity research suite, complementing:

  • Paper 1: Foundations and Equations

  • Paper 2: Unified Interpretation

  • Paper 5: Observational Predictions

  • Paper 8: CFG Cosmology

Author:
Clifford Treadwell
with model-assisted analysis generated using GPT-5.1

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