Orion4622/DEBA-Cosmology
Novel cosmological framework unifying dark matter and dark energy through organizational coherence
DEBA Cosmology: Deterministic Emergence By Actualization
A Physics-Postulate-Free Cosmology Solving the JWST 300 Objects Mystery
🌌 Overview
DEBA (Deterministic Emergence By Actualization) is a revolutionary cosmological framework that:
- ✅ Operates with ZERO physical postulates (vs. 9-10 for ΛCDM)
- ✅ Naturally predicts the 300 ultra-luminous JWST objects discovered in August 2025
- ✅ Simultaneously explains 9 major cosmological observations from a single mechanism
- ✅ Makes falsifiable predictions testable with current JWST and Planck data
Core principle: All physics emerges from stochastic dynamics in an atemporal probabilistic space (C, μ).
👤 Author
Michel Debailleul
Geophysicist, Université Libre de Bruxelles
📧 michel.debailleul@yahoo.fr
🔗 ORCID: 0009-0003-1222-1433
🎯 Key Results
DEBA simultaneously resolves 9 major cosmological observations:
- ✅ 300 ultra-luminous JWST objects at z > 10
- ✅ Supermassive black holes at z > 7 (impossible in ΛCDM)
- ✅ Ultra-early galaxies (GLIMPSE-16043)
- ✅ CMB Cold Spot (3σ temperature deficit)
- ✅ Axis of Evil (unexplained multipole alignment)
- ✅ Hemispherical asymmetry (statistical isotropy violation)
- ✅ Hubble tension (5σ discrepancy in H₀)
- ✅ Dark matter (without exotic particles)
- ✅ Dark energy (without exotic energy)
With 0 (zero) physical postulates.
📚 Publications
Latest: Euclid Data Analysis (February 2026)
Coherence: Evidence of a Fifth Functional Dimension in Euclid Data
Empirical analysis of 200,000+ objects from 21 independent Euclid sky regions revealing systematic dimensional reduction and emergence of a fifth functional (coherence) dimension.
| Platform | DOI/ID | Status | Language |
|---|---|---|---|
| Zenodo | 10.5281/zenodo.18635616 | ✅ Published | EN |
| Figshare | 10.6084/m9.figshare.31342435 | ✅ Published | EN/FR |
Key findings:
- Systematic reduction in observable space across all 21 regions
- Persistent photometric-morphological correlations
- Evidence of non-spatial coherence dimension
- Fully reproducible from ESA Sky public data
PDF: Coherence_Fifth_Dimension_Euclid.pdf
Main Article: "300 JWST Objects Solved"
| Platform | ID/DOI | Status | Files |
|---|---|---|---|
| Zenodo | 10.5281/zenodo.18061572 | ✅ Published | EN / FR |
| HAL | hal-05432391 | ⏳ Under review | Access |
| OSF | 10.17605/OSF.IO/MFHBU | ✅ Published | Project |
| Preprints.org | 191694 | ⏳ Pending check | View |
| Academia.edu | b1ae92dce4 | ✅ Published | Paper |
| arXiv | - | ⏳ Auto-transfer from HAL | Pending |
Related DEBA Publications
- Zenodo: 10.5281/zenodo.18033110 - DEBA Framework (Dec 2025)
- HAL: hal-05420687 - Finitude Physique (Dec 2025)
- HAL: hal-05409141 - Émergence Organisationnelle (Dec 2025)
- OSF: 10.17605/OSF.IO/85WP2 - DEBA Project
🔬 Theoretical Framework
Core Concept
Universe-bubbles emerge from an atemporal probabilistic space (C, μ) through:
- Stochastic fluctuations in configuration space
- Resonances between fluctuations (coupling K(x,y))
- Attractor formation (coherence concentration)
- Organizational flash (stopping time τ_flash)
- Bubble emergence with unique physical constants
Fundamental Equation
dΦ(x,τ) = -C ∫_C K(x,y) [δV[Φ]/δΦ(y,τ)] dμ(y) dτ + √(2D(x)) dW_τ(x)
Where:
- Φ(x,τ): Organizational field
- K(x,y): Coherence kernel (resonant coupling)
- V[Φ]: Organizational functional potential
- D(x): Local stochastic noise intensity
- W_τ(x): Wiener process
- μ: Probability measure
Extrinsic Geometry
Key insight: Our observable universe is an extrinsic plane resulting from the projection of organizational coherence:
g_μν(x) = π_ext[s²(x,τ_flash) K(x,y)]
This projection naturally explains:
- Apparent flatness (Ω ≈ 1) without inflation
- CMB anomalies as projection artifacts
- Fractal structure (dimension D ≈ 2)
🧪 Falsifiable Predictions
Immediately Testable (2025-2026)
| Prediction | DEBA | ΛCDM | Status |
|---|---|---|---|
| Fractal distribution | w(θ) ∼ θ^(-0.8 to -1.2) | w(θ) ∼ θ^(-0.2) | 🟢 Data available |
| Luminosity function | dn/dL ∼ L^(-1.5 to -2.0) | dn/dL ∼ L^(-1.0 to -1.2) | 🟢 Data available |
| CMB correlation | Angle < 30° (>3σ) | Random | 🟢 Data available |
| Pop III spectroscopy | Z < 10^(-5) Z☉ | Normal Z | 🟡 2026 campaign |
Medium-term (2026-2029)
- H₀ directional anisotropy: δH₀(n̂) varies with direction
- 3D fractal structure: Dimension D ≈ 2 up to ~300 Mpc
Falsification Criteria
DEBA is falsified if:
- ❌ Distribution is homogeneous (non-fractal)
- ❌ No CMB correlation found
- ❌ Dark matter particle detected (>5σ)
- ❌ H₀ isotropic within 2σ
- ❌ High metallicity in spectroscopy
📊 ΛCDM vs DEBA
| Aspect | ΛCDM | DEBA |
|---|---|---|
| Physical postulates | 9-10 independent | 0 |
| 300 JWST objects | ~10-30 expected (×10 gap) | 200-400 predicted ✅ |
| Dark matter | Exotic particle (0 detections) | Condensed coherence |
| Dark energy | Λ constant or quintessence | Geometric effect |
| CMB anomalies | Statistical flukes | Inter-bubble signatures |
| Hubble tension | Measurement errors? | Coherence gradient |
| Fractal structure | Not predicted | Fundamental |
📁 Repository Contents
DEBA-Cosmology/
├── README.md # This file
├── publications/
│ ├── 2025_DEBA_300_JWST_EN.pdf # Main article (English)
│ ├── 2025_DEBA_300_JWST_FR.pdf # Main article (French)
│ └── 2025_DEBA_300_JWST_popular.pdf # Popular version
├── technical/
│ ├── Mathematical_foundations.pdf
│ ├── Dark_matter_dark_energy.pdf
│ ├── Organizational_black_holes.pdf
│ └── CMB_anomalies.pdf
├── code/ # Coming soon
│ ├── analysis/
│ └── simulations/
└── data/ # Coming soon
└── jwst_correlations/
🔗 External Resources
Media Coverage
Key References
- Yan et al. (2025) - JWST 300 objects discovery
- Planck Collaboration (2020) - CMB anomalies (A&A 641, A7)
- Vielva et al. (2004) - Axis of Evil (ApJ 609, 22-34)
- Freidlin & Wentzell (1998) - Random Perturbations of Dynamical Systems
📖 How to Cite
BibTeX
@article{debailleul2025deba,
title={DEBA Solves the Mystery of 300 Ultra-Luminous JWST Objects:
A Physics-Postulate-Free Cosmology},
author={Debailleul, Michel},
journal={Zenodo},
year={2025},
doi={10.5281/zenodo.18061572},
url={https://doi.org/10.5281/zenodo.18061572}
}APA
Debailleul, M. (2025). DEBA Solves the Mystery of 300 Ultra-Luminous JWST Objects:
A Physics-Postulate-Free Cosmology. Zenodo. https://doi.org/10.5281/zenodo.18061572
🤝 Contributing
Contributions are welcome! Priority areas:
- 🔬 Analysis of public JWST data
- 📊 Visualization of predictions
- 💻 Numerical simulations
- 📝 Translations
- 🧪 Experimental test proposals
How to contribute:
- Fork this repository
- Create your feature branch (
git checkout -b feature/analysis) - Commit your changes (
git commit -m 'Add fractal analysis') - Push to the branch (
git push origin feature/analysis) - Open a Pull Request
📧 Contact
Michel Debailleul
Geophysicist
Université Libre de Bruxelles
📧 michel.debailleul@yahoo.fr
🔗 ORCID: 0009-0003-1222-1433
🔗 LinkedIn: michel-debailleul
🐙 GitHub: @Orion4622
📜 License
This work is licensed under CC BY 4.0
You are free to:
- ✅ Share — copy and redistribute
- ✅ Adapt — remix and build upon
Under the condition:
- 📝 Attribution — Give appropriate credit
🙏 Acknowledgments
Inspirations:
- 🌌 Hubert Reeves - Cosmic poet
- 🌋 Haroun Tazieff - Courageous observer
- 🇧🇪 Georges Lemaître - Visionary cosmologist
- ⚡ Nikola Tesla - Revolutionary inventor
Tools:
- JWST observations (NASA/ESA/CSA)
- Planck satellite data (ESA)
- Open science platforms (Zenodo, HAL, OSF)
Last updated: December 27, 2025
Version: 2.0
Status: Published preprints - Peer review pending
"The universe is not a collection of postulates—it's an emergent structure from atemporal dynamics."
— DEBA Framework
"Sortant de notre univers, nous en voyons enfin la forme : la projection de la cohérence sur la courbure extrinsèque."
— Michel Debailleul