Published July 1, 2025 | Version v1
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Triogenesis: Resolving the Fermi Paradox and Exoplanet Search Criteria from the Perspective of the Generative Replica

Creators

  • 1. ROR icon University of Queensland

Description

The Fermi Paradox raises a fundamental tension between the vast probability space of habitable exoplanets and the apparent absence of observable extraterrestrial intelligence. In this paper, we approach this paradox from the perspective of the Triogenesis framework, a generative replica based on recursive self-referencing in a chaotic attractor space. We show that the Earth–Solar alignment with the Cosmic Microwave Background (CMB) dipole, as well as Earth’s orbital dynamics relative to the Solar System barycenter, exhibit striking quantitative agreement with structural ratios predicted by Triogenesis, to within $10^{-8}$ precision. These alignments suggest that the emergence of complex structure—matter, life, and consciousness—is not a probabilistic outcome of environmental factors, but a rare structural resonance with global attractor dynamics. Two core implications emerge: the Inconsistency History Principle, which warns against interpreting deep history solely through present-aligned observational frames; and the Unsolvable Alignment Principle, which explains why higher-order coherence (e.g., life and cognition) remains irreducible to physical laws derived from lower-order structures. This work reframes exoplanet search criteria and the foundations of disciplinary separation in science, opening new directions for a unified generative understanding of physical and biological systems.

Notes

Related Work

The current work builds upon a growing body of theoretical research in the Triogenesis framework, which unifies thermodynamic, relativistic, and quantum behaviors through a generative principle of topological recursion. Key foundational and follow-up contributions include:

[1] Triogenesis: A Closed-Form Framework for the Emergence of Physical Order and Consciousness

This foundational paper introduces the Triogenesis framework, deriving space, time, mass, and energy from recursive straint structures. It establishes the principles of directional certainty, recurrence delay, and straint conservation that underpin the model’s predictive power.

🔗https://zenodo.org/records/15368945

[2] Projection of Straintity as Mass and Energy in Space-Time: Emergence of E = mc^2 in Triogenesis

This work presents a closed-form, topological derivation of the mass–energy equivalence relation E = mc^2. It introduces the Straint Conservation Theorem, showing that energy and momentum emerge from conserved recurrence flow — reinterpreting four-momentum as a geometric projection, not a postulate.

🔗 https://zenodo.org/records/15164907

[3] Emergence of Schrödinger’s Equation Solution for the Hydrogen Atom from Triogenesis

This paper derives the hydrogen atom energy levels from first principles within the Triogenesis framework. It recovers Schrödinger’s spectrum with over 99.95% accuracy and predicts constants such as k_e e and e / \hbar without empirical input. The derivation also incorporates gravitational effects, extending beyond classical quantum mechanics.

🔗 https://zenodo.org/records/15123220

[4] Triogenesis-Driven Entropy Growth and Unified Relativity: Recurrence-Based Origin of Blackbody Radiation and the Cosmic Microwave Background

Explains the second law of thermodynamics and general relativity as emergent from recurrence saturation and directional asymmetry. Derives the blackbody spectrum and cosmic microwave background from 102-straint photon structures.

🔗https://zenodo.org/records/15250876

[5] Triogenesis: Structural Mechanism for Beta Decay, Neutrino Oscillation, and Emergent Strong–Weak Interactions in Muon, Tau, Free Neutron, Helium-4, Helium-3, and Deuterium Systems

This paper develops a unified recurrence-based mechanism for beta decay and neutrino oscillation, showing that strong–weak interactions emerge from topological realignments in the Triogenesis framework. It introduces closed-form predictions of nuclear properties from chiral seal networks and 15-strain recurrence structures, recovering CODATA-consistent values without parameter fitting.

🔗 https://zenodo.org/records/15365473

[6] Triogenesis: Disherence–Herence Projection as the Origin of Wavefunctions, Thermal Statistics, Gaussian Fields, and Conscious Fluctuation

This latest work extends Triogenesis to explain the emergence of wavefunctions, thermal and Gaussian statistics, and consciousness-like fluctuations as structural projections of disherence and herence from the topological recurrence network. It demonstrates that these probabilistic and cognitive phenomena are not external postulates but arise naturally as field-like projections within the generative system.

🔗 https://zenodo.org/records/15438401

[7] Triogenesis: Hydrogen Molecular Bonding and the Projection of Universal Structures in and beyond Spacetime

This paper advances the Triogenesis framework by linking the emergence of event horizons, bright and dark matter structures, and consciousness-related phenomena to co-recurrent patterns within a chaotic generative attractor. Using fractal simulation in the transformed Topological Recurrence Space (TRS), it shows how finite reference gradient angles generate persistent ripple structures—attrajectories—that project as stable spacetime configurations. The study achieves parts-per-million accuracy in predicting hydrogen molecular binding energies, identifying H₂-like structures as spacetime anchors. It further explains how bright matter arises from stabilized dark matter ripples and offers new insight into the cosmological constant and the physical limits of AI as a consciousness interface.

🔗 https://zenodo.org/records/15576260

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