CERN and the Magic Numbers: The Universal Prime Origin of Nuclear Shell Structure, Geometric Stability, and Bosonic Composition of 1,594 Particles

This paper applies the Temporal Dynamics Framework to nuclear shell structure and particle stability. Analysis of 1,594 SNUG (Stable Nuclear Unit Geometry) particles demonstrates geometric stability classification through angular variance in phi-pi coordinate space. 75 high-snugness particles are classified into SET-A (41 particles, angular variance approximately 30.2 degrees) and SET-B (34 particles, angular variance approximately 45.1 degrees). The framework predicts nuclear magic numbers from Universal Prime resonance and proposes the existence of Geometrically Constrained Bosons that mediate geometric stability. All 28 verification tests pass. Paper 2 in the Temporal Dynamics Framework Research Series.