It is widely known that there are at least a dozen different interpretations of quantum theory. One of them is the de Broglie – Bohm interpretation. In this formulation, a quantum potential appears that guides quantum particles in their movements. The shape of the quantum potential makes each particle move along its path. However, the existence of only four interactions has been experimentally established. These are electromagnetic, gravitational, weak and strong interactions. That is why it was so important to understand exactly how the quantum potential interacts with particles. The recently obtained result provides evidence of the electromagnetic nature of the quantum potential. The paper in which the electromagnetic nature of the quantum potential was revealed, can be obtained here: Article in the journal, or ArXiv.
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Reflections on Modern Physics 
Good luck with the Blog, Anton!
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Thank you, Vladislav! Honestly, I feel sorry for the time for blogging, but if we do not discuss the problems from which modern physics suffers, then development will stop altogether.
In addition, there is hope to find caring colleagues and like-minded people here, and this cannot be overestimated.
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How does the Broglie-Bohm approach differ from the Feynman integral over trajectories ?
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Thank you for your comment.
The differences in the formulations of quantum mechanics are very well described in the excellent article “Nine formulations of quantum mechanics”:
https://aapt.scitation.org/doi/10.1119/1.1445404
This article can be found here:
https://www.researchgate.net/publication/228764947_Nine_formulations_of_quantum_mechanics
and also here:
Click to access NineFormulations.pdf
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