Absolibrium. A Century of Quantum Mechanics: How Bohr and Einstein Were Both Right

Abstract

Anton Kleschev Alevtinowitch

We present Absolibrium, an integrated ontological and computational program that unifies physical law, cosmology, and conscious experience within a single fractal–resonant substrate. At the ontic level we posit the Superposition Everything (SE) state — a deterministic, multifractal object whose observer-restricted projections produce the apparently probabilistic behavior of quantum mechanics. To model the transition from ontic structure to observer-effective states we introduce Luminissance (L), a near-identity spectral selector implementing soft modal reweighting, controlled dissipation, and stabilization of coherent resonances. To render the framework empirically actionable we develop CROWN (Complex Resonance Of Origami Wave–Nuclei), a matrix-free inversion pipeline combining spectral and fractional priors (FSP/FROL), an ADMM outer loop with inexact LSMR inner solves, bootstrap pole extraction and clustering, and multifractal diagnostics (MFDFA) to recover robust modal branches and quantify substrate complexity.

From this architecture we derive an effective decomposition into global (inter-branch) and local (intra-branch) sectors: gravity emerges as a global metric response sourced by collective branch-weighted stress-energy, while gauge forces arise as intra-branch selections; dark matter and dark energy admit reinterpretation as inter-branch projections and separation energy. We enumerate concrete laboratory and astrophysical signatures (optical cavities, BECs, atomic clocks, weak-lensing cross-correlations, gravitational-wave echoes) and formalize Patterns of Experience (PE) as high-coherence, self-referential resonant subsystems with operational neural proxies (coherence, Φ, MFDFA). The manuscript supplies rigorous selection lemmas, complete algorithmic pseudocode, minimal runnable code and a reproducibility recipe, making the program submission-ready and experimentally testable.

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