Information Dynamics: From Quantum Mechanics to Information Superconductor -- Derivation of the Schrödinger Equation and Inversion of 2025 Quantum Experiments

We present the Information Dynamics framework, where quantum mechanics emerges from a more fundamental information field. Two complementary perspectives are offered. First perspective (quantum physics view): The Schrödinger equation is derived as the unitary, dissipation-free limit of a generalized Ginzburg-Landau equation. The information purity pID = ε/(ε+γ) controls the transition between wave-like coherence and particle-like decoherence. Second perspective (information superconductor view): In the limit pID → 1, the information field behaves as an information superconductor — a dissipation-free flow of information, analogous to electrical superconductivity. The Schrödinger equation becomes the “London…