Quantum Vacuum Expansion in Quantum Biology: SU(2)-SU(3) Symmetries, Phononic Tunneling, and Codon Phase Transitions in Biomolecular Systems
Authors/Creators
Description
This preprint introduces a speculative but mathematically grounded framework for understanding the role of the quantum vacuum in biological systems. It proposes that biological information is not merely biochemical, but emerges from structured vacuum fluctuations governed by SU(2) and SU(3) symmetries, codon phase transitions, and phononic tunneling.
The manuscript presents a series of original simulations modeling discrete quantum encoding dynamics, codon phase coherence, phonon-mediated tunneling, and palindromic decoherence signatures using quantum biological logic gates. It further outlines a suite of testable experimental prototypes, including EZ-water Petri dish biocircuits with dual-reporter systems (luciferase and mCherry), Casimir-inspired vacuum confinement models, and coherence-sensitive transposon constructs. These are designed to probe the interface between zero-point field dynamics and biological regulation.
By integrating theoretical physics, synthetic biology, and coherent systems modeling, this work contributes to building a testable and interdisciplinary foundation for quantum biology. Future applications include non-invasive biosensing, regenerative therapies, and quantum-informed diagnostics based on vacuum-coupled biomolecular systems.
Español (ES):
Este trabajo explora cómo las fluctuaciones estructuradas del vacío cuántico y la coherencia de codones pueden dar forma a la información biológica. Incluye simulaciones innovadoras y experimentos verificables que vinculan la física cuántica con la lógica genética y la medicina no invasiva.
Français (FR) :
Ce travail explore comment les fluctuations du vide quantique et la cohérence des codons peuvent structurer l'information biologique. Il propose des simulations originales et des expériences testables liant la physique quantique à la génétique et à la médecine non invasive.
Italiano (IT) :
Questo studio esplora come le fluttuazioni del vuoto quantistico e la coerenza dei codoni possano modellare l'informazione biologica. Include simulazioni originali ed esperimenti verificabili che collegano la teoria quantistica alla genetica e alla medicina non invasiva.
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Quantum Vacuum Expansion in Quantum Biology SU(2) SU(3) Symmetries, Phononic Tunneling, and Codon Phase Transitions in Biomolecular Systems.pdf
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(6.6 MB)
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Additional details
Related works
- Cites
- 10.1007/s10008-023-05787-1 (DOI)
- Continues
- 10.5281/zenodo.15385792 (DOI)
- Is supplement to
- 10.5281/zenodo.15456270 (DOI)