Abstract

Description: This paper reinterprets the Chiral-Induced Spin Selectivity (CISS) effect through the lens of structured resonance, offering a foundational alternative to stochastic spin-path models. Building on the empirical results of Bloom et al. (2024), it argues that chirality-driven spin polarization is not merely a surface-level quantum anomaly but a phase-locked resonance phenomenon. The CODES framework (Chirality of Dynamic Emergent Systems) recasts chirality as a recursive attractor geometry, replacing probabilistic spin alignment with deterministic coherence thresholds. This reclassification introduces a unified interpretation of spin behavior, molecular transport asymmetries, and signal amplification, with direct implications for material science, quantum biology, and resonance-based AI architectures like the Resonance Intelligence Core (RIC). A comparison chart of explanatory models and experimental predictions is included.