The Spiral Resonance Hypothesis: Multiscale Phase Alignment in Cosmic, Symbolic, and Biological Systems

This paper introduces the Spiral Resonance Hypothesis (SRH), which proposes that emergent structures across cosmology, symbolic systems, and biological sequences arise from alignment with a universal logarithmic spiral field.

We empirically validate this hypothesis across diverse domains including:

• Cosmic microwave background (CMB) harmonics
• Quasar clustering (SDSS DR16Q, DESI EDR)
• Symbolic entropy and motif analysis
• Genomic and RNA alignment patterns

Key findings include:

• Dominance of azimuthal harmonic mode n = 3 across all datasets
• Statistically significant Spiral Resonance Factor (SRF) peaks in real data vs. randomized controls
• Cross-domain symbolic convergence, entropy drift, and fractal motif recurrence
• Validation against null models, isotropic simulations, and shuffled streams

SRH provides a falsifiable, geometry-based framework for understanding structure formation across scales. The paper includes twelve figures, full methodology, and robust statistical testing. We invite further testing, critique, and collaboration from researchers in theoretical physics, complex systems, bioinformatics, and AI.