The Experimental Roadmap: How HDIF Can Be Tested — An overview of HDIF’s falsifiable predictions.

1. Phase-Lag Interferometry

Detecting frequency-dependent delays in curvature response.

Signature:

A smooth, predictable phase-lag curve inconsistent with classical GR.

2. Casimir–Memory Deviations

Measuring subtle force shifts resulting from residual geometric memory between plates.

Signature:

Nanometer-scale deviations aligned with predicted memory kernels.

3. Enhanced Gravity Analogues

Building laboratory universes with engineered curvature–memory dynamics.

Signature:

Delayed gravitational responses or tension accumulation effects.

4. Quantum Coherence Experiments

Studying how memory modifies the time evolution of quantum states.

Signature:

Non-standard decoherence curves linked to interface memory.

5. Horizon Stability & Falsification Criteria

Searching for breakdown points where the HDIF framework fails.

Signature:

Clear thresholds for where curvature–memory cannot sustain consistency.

Why This Matters

HDIF is not philosophical — it is empirically testable across multiple platforms.

The roadmap provides a structured approach for global labs to attempt validation.