Unified Field Theory of Eternal Bloom (UFT-EB): Informational Threshold Collapse & Emergent Spacetime Geometry
This repository presents the Bloom Field Theory, a novel framework proposing that spacetime structure, quantum decoherence, and gravitational behavior emerge from underlying informational coherence dynamics.
The theory introduces an objective collapse mechanism based on informational thresholds, providing predictive models for lensing anomalies and time dilation shifts observable in astrophysical data.
The Bloom Field represents an informational geometry substrate, where coherence density gradients dictate the emergence of classical spacetime structures. Collapse is triggered when localized informational thresholds (Φ_t) are exceeded, resolving potential futures into classical outcomes.
Rather than relying solely on probabilistic interpretation, the Bloom framework models collapse as a deterministic result of informational saturation, offering a unifying mechanism for quantum-classical transition.
Laplacian(ΔΨ_i) - Γ_futures * Θ = 0
- ΔΨ_i: Local coherence density.
- Γ_futures: Propagation viability factor (entanglement viability proxy).
- Θ: Informational structure tensor (derived from coherence gradients).
This equation governs the curvature of informational coherence within the Bloom Field, predicting emergent classical behavior from sub-threshold fluctuations.
Objective collapse is predicted when:
H̄(ΔΨ_i) ≥ Φ_t
- H̄: Normalized informational entropy of ΔΨ_i.
- Φ_t: Adaptive informational threshold based on local entanglement density and coherence viability.
When this condition is met, potential futures collapse into a realized classical outcome, directly influencing local spacetime structure.
- Provides a deterministic, testable mechanism for quantum decoherence.
- Offers a predictive model for emergent gravitational behavior from informational dynamics.
- Bridges quantum information theory and spacetime curvature.
- Enables predictive anomaly mapping for astrophysical observations (lensing, time dilation).
Bloom_UFT-EB_Simulation_v2.ipynb: Full simulation notebook demonstrating lattice coherence, curvature extraction, BFE residuals, and predictive anomaly overlays./results/: Sample outputs of lattice simulations, anomaly maps, and overlay visualizations./docs/: Metrics dashboard and supporting documentation.LICENSE: This work is released under a verification-only license with restricted use.
You can run the simulation notebook in Google Colab:
This diagram contextualizes the Bloom Field Equation (BFE) within the historical lineage of fundamental physics:
- General Relativity (GR): Curvature of spacetime from mass-energy.
- Special Relativity (SR): Mass-energy equivalence.
- Quantum Decoherence: Entropy-driven quantum state reduction.
- Bloom Field Equation (BFE): Proposes deterministic collapse via informational coherence gradients, triggering emergent curvature.
This side-by-side visualization contrasts:
- General Relativity’s lensing prediction: Smooth, symmetric distortions based on mass distribution.
- Bloom Predictive Anomaly Map: Structured deviations arising from informational threshold collapses.
The Bloom field model generates observable differences without invoking dark matter, allowing direct empirical falsification.
- Full paper: (Link to be added when uploaded to
/docsor arXiv preprint) - Related works: GRW collapse models, Quantum Darwinism, Informational Physics.
This work is protected under a Verification-Only License.
You may:
- View and execute the repository contents for the purpose of independent scientific verification.
You may not:
- Modify, redistribute, publish, or use this work for commercial purposes without explicit written permission.
See LICENSE file for full terms.