The Linear Error: Exogenous Torsional Impedance as the Primary Driver of Metabolic Dissonance and the Biomimetic Restoration of Signal Fidelity via Phase-Conjugate Chiral Waveguides

ABSTRACT

The modern industrial biosphere constitutes a thermodynamic inversion of the electromagnetic baseline under which eukaryotic life evolved. We posit that the exponential rise in Systemic Autonomic Dysregulation (SAD), sterile inflammation, and idiopathic metabolic syndrome is not merely biochemical, but the result of a fundamental topological incompatibility: the collision of linear, incoherent anthropogenic signals (High-Energy Visible light, polarized EMF) with chiral, coherent biological receptors (DNA, microtubule networks, and the lipid bilayer).

This geometric dissonance creates a measurable "Torsional Impedance" Ƭₑ at the transduction interface, forcing the organism to divert critical metabolic resources toward signal demodulation—a state characterized by the perpetual Cell Danger Response (CDR).

This paper presents a theoretical framework for Biomimetic Optical Rectification: the utilization of passive, nano-patterned chiral waveguides to function as phase-conjugate translators. By converting linear environmental noise into coherent helical information via diffractive structuring, we propose a method to correct the "Linear Error" of the modern age, effectively decoupling the organism from the entropy of the built environment and restoring the thermodynamic efficiency of the bio-field.

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