Author: Pohl, M.U.E.
DOI: https://doi.org/10.5281/zenodo.15727396
Published: 2025-06-24
Cite as: Pohl, M. U. E. (2025). Refutation of the Heisenberg Uncertainty Principle: Quantization as an Artifact of Arbitrary Reference Standards. Zenodo. https://doi.org/10.5281/zenodo.15727396
Abstract: The Heisenberg uncertainty principle (\(\Delta p \Delta x \geq \hbar / 2\)) posits a fundamental limit to simultaneous measurements of position (\(\Delta x\)) and momentum (\(\Delta p\)). We demonstrate that this limit is an artifact of the SI’s arbitrary time standard, the ``second,’’ defined via the caesium-133 frequency (\( f_{\text{Cs}} = 9,192,631,770 \, \text{Hz} \)). The Planck constant’s numerical value (\(\hbar\)) scales with the choice of reference standard (e.g., caesium oscillations or Earth’s rotation), nullifying the uncertainty bound without altering physical reality. Quantization, observed in experiments counting whole periods, is a methodological constraint, not a universal property. This finding resolves the conflict between general relativity and quantum mechanics as a conceptual error in SI’s premises. The Panvitalist Theory’s rational framework, using physical standards, eliminates quantization artifacts, unifying physical theories

Refutation of the Heisenberg Uncertainty Principle: Quantization as an Artifact of Arbitrary Reference Standards