A causal interpretation of quantum mechanics

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A causal interpretation of quantum mechanics
Nina Sotina 8 Aug 2017
  1. Roger Anderton
  2. physics
  3. science
  4. quantum
  5. mechanics
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Professor Hiley has updated Bohm to a noncommutative model: Quantum professor Basil J. Hiley, 2016: "Quantum Trajectories: Dirac, Moyal and Bohm " In many ways it seemed to be a new form of inner energy possessed by the particle, organising the flow lines in a novel way and suggesting a 'formative' cause rather than the traditional efficient cause.

....quantum phenomena emerged from a non-commutative phase space."

Bohm's Approach and Individuality, 2016, Oxford University Press: Basil J. Hiley:

"There we see that if one of the particles enters the field of a Stern-Gerlach magnet, it is then deflected either "up" or "down" depending on the positions of each particle at the time just before the particle enters the magnetic field. The particle in this field has its trajectory changed, while the other particle continues in a straight line. At the same time both spin components become well defined. This is a surprising result, but clearly shows that the individual parts cannot be thought of as isolated "little spinning spheres, " a point that was emphasized by Weyl (1931)."

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