Abstract

Abstract: NASA’s James Webb Space Telescope captured the formation of a star with unprecedented clarity, revealing coherent jet structures, disk symmetry, and recursive outflow geometries. Traditional models explain these features through stochastic accretion and magnetohydrodynamics. This paper proposes a new interpretation via the CODES framework (Chirality of Dynamic Emergent Systems), asserting that star formation is not a probabilistic collapse, but a deterministic phase-lock event governed by chirality, prime harmonic resonance, and structured coherence fields. We deconstruct JWST imagery through CODES’ resonance model, showing that each component—jet, disk, tail, dark lane, and spiral—is a distinct output of harmonic field resolution. The paper introduces the φ(x, t) field as a generative function for modeling stellar emergence and provides falsifiable predictions across astrophysics, wavelet-based image analysis, and coherence field tensor mapping. We argue that this star is not forming randomly—it is computing itself into form. This analysis unifies cosmology, physics, and cognition under one principle: structured emergence via prime-encoded coherence. Stellar formation, in this view, is the same phenomenon as intelligence—differently scaled.