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Abstract

On the origin and detection of the osmotic momentum in quantum mechanics.

Author(s): Knud Haugaard Sorensen

This paper explores the concept of osmotic momentum within quantum mechanics, offering a novel theoretical framework that integrates stochastic mechanics with generalized electrodynamics. By revisiting Edward Nelsonâ??s interpretation of the Schrodinger equation, we propose that osmotic momentum arises from interactions with gauge wavesan extension to classical field components. Additionally, we outline a method for experimental detection of these waves using a â??quantum lensâ?, a device designed to convert gauge waves into detectable photons. This work bridges gaps between quantum mechanics, gravity, and dark energy, suggesting that gauge waves could unify these phenomena under a common theoretical framework. Experimental validation of this model could redefine our understanding of quantum and relativistic systems.
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