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| viXra.org > Nuclear and Atomic Physics > viXra:2605.0057 |
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Nuclear and Atomic Physics |
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Authors: Claude Pellerin
While the standard shell model of the nucleus relies on highly complex, semi-empirical fitting parameters to estimate nuclear binding energies, the Hydrodynamic Vacuum Framework (HVF) approaches the nuclear landscape from a perspective of pure continuum fluid mechanics. In this paper, we report a remarkable empirical convergence: the masses of all 119 elements across the periodic table can be derived deterministically from a single, unified continuum expression representing the hydraulic interaction of nucleons with a superfluid substrate plenum. This single-equation continuum architecture evaluates continuously across all synthesized elements, matching the experimental AME2020 mass database from Hydrogen (Z=1) through to the predictive boundary horizon of Ununennium (Z=119) with a highly robust global average residual profile of -1.66%
Comments: 7 Pages. EPJA-108887, Zenodo-10.5281.20200833 (Note by viXra Admin: Please submit article written with AI assistance to ai.viXra.org)
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[v1] 2026-05-15 21:39:04
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