Uniting the wave and the particle in quantum mechanics
Peter Holland

TL;DR
This paper develops a unified field theory in quantum mechanics that combines wave and particle aspects, resolving key issues in de Broglie-Bohm theory through symmetry principles and a new inhomogeneous equation.
Contribution
It introduces a novel unified field model that merges wave and particle descriptions, addressing limitations of de Broglie-Bohm theory with a symmetry-based analytical framework.
Findings
Unified wave-particle field equation derived
Wavefunction remains unaffected by particle dynamics
Model applicable to many-body quantum systems
Abstract
We present a unified field theory of wave and particle in quantum mechanics. This emerges from an investigation of three weaknesses in the de Broglie-Bohm (deBB) theory: its reliance on the quantum probability formula to justify the particle law; its insouciance regarding the absence of reciprocal action of the particle on the guiding wave; and its lack of a unified model to represent its inseparable components. These problems are resolved within an analytical framework by requiring that the wave-particle composite exhibits no observable differences with a quantum system. This scheme is implemented by appealing to symmetries (global gauge and spacetime translations) and imposing equality of the corresponding conserved Noether densities (matter, momentum and energy) with their Schrodinger counterparts. In conjunction with the condition of time reversal covariance this implies the deBB…
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