Resolution of the Quantum Measurement Problem via Gravitational Self-Energy Collapse

Ju, Pei-Yuan

doi:10.5281/zenodo.18908635

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Published March 8, 2026 | Version v9

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Resolution of the Quantum Measurement Problem via Gravitational Self-Energy Collapse

Ju, Pei-Yuan¹

1. Independent Researcher, New Taipei City, Taiwan

We present a resolution of the quantum measurement problem in which wavefunction collapse is a physical process driven by gravitational self-energy. When a quantum system exists in a superposition of states with distinct mass distributions, the gravitational self-energy $E_G$ of the superposition determines a definite collapse timescale $ au = \hbar/E_G$. Using crystallographically determined atomic coordinates of tubulin proteins (PDB: 6EVW, 6EVZ), we compute $E_G$ for a biologically realized

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License: Creative Commons Attribution Non Commercial No Derivatives 4.0 International

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Created: March 8, 2026
Modified: March 8, 2026

Resolution of the Quantum Measurement Problem via Gravitational Self-Energy Collapse

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