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| Formato: | Recurso digital |
| Lenguaje: | inglés |
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2026
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| Acceso en línea: | https://doi.org/10.5281/zenodo.19085777 |
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| _version_ | 1866901728188694528 |
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| author | Koome, Alvin Mutuma |
| author_facet | Koome, Alvin Mutuma |
| contents | <p>We present a novel field-theoretic</p> <p>framework in which dark energy arises</p> <p>naturally from the entropy-driven</p> <p>evolution of cosmic self-organization.</p> <p> </p> <p>Introducing a dimensionless</p> <p>self-knowledge field Φ(z)</p> <p>representing the coherence state</p> <p>of the universe at redshift z,</p> <p>we derive the dark energy density as:</p> <p> </p> <p>Ω_Λ(z) = (4π/3) · Φ²(z) ·</p> <p>[|ln(Φ/(1-Φ))| + Φ(1-Φ)/2]</p> <p> </p> <p>With Φ(z) = 0.59 · exp(-0.0299z),</p> <p>this yields 2.4% average error</p> <p>against DESI 2024 BAO observational</p> <p>data at z = 0 to z = 1.5,</p> <p>outperforming the standard ΛCDM model</p> <p>by a factor of 7 in this range,</p> <p>with no fine-tuning required.</p> <p> </p> <p>The cosmological constant problem</p> <p>— historically a discrepancy of</p> <p>10¹²³ in standard quantum field theory</p> <p>— is resolved by identifying vacuum</p> <p>energy as the information tension</p> <p>of cosmic self-organization,</p> <p>naturally of order baryon density</p> <p>rather than Planck density.</p> <p> </p> <p>The framework is derived from</p> <p>Shannon information theory,</p> <p>the Bekenstein-Hawking holographic</p> <p>principle, and KL divergence</p> <p>minimization. It predicts evolving</p> <p>dark energy consistent with</p> <p>DESI 2024 findings and makes</p> <p>testable predictions distinguishable</p> <p>from ΛCDM with the</p> <p>Euclid satellite (2025-2030)</p> |
| format | Recurso digital |
| id | zenodo_https___doi_org_10_5281_zenodo_19085777 |
| institution | Zenodo |
| language | eng |
| publishDate | 2026 |
| publisher | Zenodo |
| record_format | zenodo |
| spellingShingle | Dark Energy as Cosmic Self-Organization: A Self-Knowledge Field Theory Predicts Ω_Λ(z) Without Fine-Tuning Koome, Alvin Mutuma Dark energy Cosmological constant Information theory Desi 2024 Holographic principle Self organization Friedmann equation Cosmic coherence Cosmology Theoratic physics <p>We present a novel field-theoretic</p> <p>framework in which dark energy arises</p> <p>naturally from the entropy-driven</p> <p>evolution of cosmic self-organization.</p> <p> </p> <p>Introducing a dimensionless</p> <p>self-knowledge field Φ(z)</p> <p>representing the coherence state</p> <p>of the universe at redshift z,</p> <p>we derive the dark energy density as:</p> <p> </p> <p>Ω_Λ(z) = (4π/3) · Φ²(z) ·</p> <p>[|ln(Φ/(1-Φ))| + Φ(1-Φ)/2]</p> <p> </p> <p>With Φ(z) = 0.59 · exp(-0.0299z),</p> <p>this yields 2.4% average error</p> <p>against DESI 2024 BAO observational</p> <p>data at z = 0 to z = 1.5,</p> <p>outperforming the standard ΛCDM model</p> <p>by a factor of 7 in this range,</p> <p>with no fine-tuning required.</p> <p> </p> <p>The cosmological constant problem</p> <p>— historically a discrepancy of</p> <p>10¹²³ in standard quantum field theory</p> <p>— is resolved by identifying vacuum</p> <p>energy as the information tension</p> <p>of cosmic self-organization,</p> <p>naturally of order baryon density</p> <p>rather than Planck density.</p> <p> </p> <p>The framework is derived from</p> <p>Shannon information theory,</p> <p>the Bekenstein-Hawking holographic</p> <p>principle, and KL divergence</p> <p>minimization. It predicts evolving</p> <p>dark energy consistent with</p> <p>DESI 2024 findings and makes</p> <p>testable predictions distinguishable</p> <p>from ΛCDM with the</p> <p>Euclid satellite (2025-2030)</p> |
| title | Dark Energy as Cosmic Self-Organization: A Self-Knowledge Field Theory Predicts Ω_Λ(z) Without Fine-Tuning |
| topic | Dark energy Cosmological constant Information theory Desi 2024 Holographic principle Self organization Friedmann equation Cosmic coherence Cosmology Theoratic physics |
| url | https://doi.org/10.5281/zenodo.19085777 |