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| Format: | Recurso digital |
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Zenodo
2026
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| Online Access: | https://doi.org/10.5281/zenodo.19520193 |
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Table of Contents:
- <p>The zinc spark—a rapid, wave-like release of zinc ions during mammalian oocyte fertilization represents a pivotal biological event marking the transition from gamete to embryo. Within the Cosmological Thermosynthesis Theory v3.2 (TTC v3.2), this phenomenon is reinterpreted not merely as a biochemical signal but as a microcosmic analog of entropic crystallization in the primordial etherion superfluid. We derive a rigorous mathematical framework wherein zinc ion dynamics obey modified reaction-diffusion equations coupled to local gravitational gradients Γg and configurational entropy ∆S, yielding quantitative predictions for zinc release kinetics, wave propagation speeds, and developmental viability markers. Integrating recent advances in live-cell imaging, single-ion tracking, and JWST observations of early cosmic structure, we demonstrate that the zinc spark exhibits scale-invariant properties consistent with TTC’s recursive entropic dynamics. All definitions specify domains,<br>codomains, hypotheses, and functional spaces; lemmas, propositions, and theorems include explicit proofs. The framework yields falsifiable predictions for reproductive biology, assisted reproduction technologies, and cosmological observations, positioning the zinc spark as a critical empirical bridge between biological initiation and cosmic emergence.</p>