From Absurdity to Harmony: Quantum Mechanical Paradoxes in Light of SQRI Theory
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I present a revolutionary interpretation of classical quantum mechanical paradoxes within the framework of Symmetric Quantum Resonance of Information (SQRI) theory. I demonstrate that what appears absurd—wave-particle duality, superposition, uncertainty, tunneling, entanglement—becomes natural when we understand that particles are informational resonances on the 3-sphere S3 embedded in AdS5 bulk. Quantum chaos generates hierarchies, decoherence explains wavefunction collapse, and sphere geometry eliminates “spooky action at a distance.” The theory predicts testable signatures: Wigner-Dyson statistics in mass spectrum (χ2/dof < 0.1 for SQRI vs. > 2 for random), Berry phase correlations in entanglement, and temporal asymmetry in tunneling. Falsification: absence of chaotic regime in precision CKM measurements by 2035 or discovery of local hidden variables.