TL;DR
This paper reviews fundamental conceptual issues in quantum mechanics and proposes that an extended electron model and understanding rotations in 3D space can resolve many of these problems, including non-locality.
Contribution
It introduces a model of extended electrons and a new interpretation of wavefunctions that addresses ontological and non-locality issues in quantum mechanics.
Findings
Extended electron model addresses wavefunction ontological problems.
Experimental results support quantized interactions causing wave-like behavior.
Photon double-slit experiments confirm the proposed interpretation.
Abstract
We review the conceptual problems in quantum mechanics on a fundamental level. It is shown that the proposed model of extended electrons and a clear understanding of rotations in three dimensional space solve a large part of these problems, in particular the problems related to the ontological status and physical meaning of wavefunctions. It also solves the problem of non-locality. The experimental results obtained in Yves Couder's group and theoretical results by Gerdard Gr\"ossing indicate that the wave-like distribution of trajectories of electrons in interference experiments are most likely due to the quantized interactions leading to a discrete set of transferred momenta. A separate experimental confirmation of this interpretation for double-slit interferometry of photons has been given by the group of Steinberg.
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