Unified Vibration–Containment Framework: A Multiscale Structural Theory

This work presents a unified theoretical framework describing all known particle identity, atomic stability, and large-scale collapse as emergent from layered vibrational structures contained within pressure-regulated quantum domains. The model integrates fundamental vibrational modes, quantum containment pressure fields, and phase-inversion dynamics to explain quark diversity, antimatter pathways, isotope-dependent radioactivity, and neutron-star analogues. Simulations confirm the framework’s internal consistency, stability, and mathematical compatibility with existing quantum and astrophysical theories. This manuscript includes computational models, reproducible code, and visualizations to support all core claims. The approach offers an original scaffold for connecting quantum, nuclear, and cosmological phenomena and suggests new mechanisms for entanglement, decay instability, and structural information preservation across scales.