Many-body localization protects emergent holographic geometry in random tensor networks by preserving spatial entanglement structure against thermalization.
’t Hooft,The Cellular Automaton Interpretation of Quantum Mechanics(Springer, 2016)
2 Pith papers cite this work. Polarity classification is still indexing.
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Finite-dimensional quantum mechanics, including the Born rule and complex Hilbert space structure, follows uniquely from distinguishability plus finite capacity and self-referential consistency.
citing papers explorer
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Breaking the Entanglement-Structure Trade-off: Many-Body Localization Protects Emergent Holographic Geometry in Random Tensor Networks
Many-body localization protects emergent holographic geometry in random tensor networks by preserving spatial entanglement structure against thermalization.
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Existence as Distinguishability: Quantum Mechanics from Finite Graded Equality
Finite-dimensional quantum mechanics, including the Born rule and complex Hilbert space structure, follows uniquely from distinguishability plus finite capacity and self-referential consistency.