Quantum Mechanics and the Principle of Maximal Variety

Foundations of Physics 46 (6):736-758 (2016)
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Abstract

Quantum mechanics is derived from the principle that the universe contain as much variety as possible, in the sense of maximizing the distinctiveness of each subsystem. The quantum state of a microscopic system is defined to correspond to an ensemble of subsystems of the universe with identical constituents and similar preparations and environments. A new kind of interaction is posited amongst such similar subsystems which acts to increase their distinctiveness, by extremizing the variety. In the limit of large numbers of similar subsystems this interaction is shown to give rise to Bohm’s quantum potential. As a result the probability distribution for the ensemble is governed by the Schroedinger equation. The measurement problem is naturally and simply solved. Microscopic systems appear statistical because they are members of large ensembles of similar systems which interact non-locally. Macroscopic systems are unique, and are not members of any ensembles of similar systems. Consequently their collective coordinates may evolve deterministically. This proposal could be tested by constructing quantum devices from entangled states of a modest number of quits which, by its combinatorial complexity, can be expected to have no natural copies.

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10.1007/s10701-016-9994-x

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Lee Smolin
University of Toronto, St. George Campus

Citations of this work

The Dynamics of Difference.Lee Smolin - 2018 - Foundations of Physics 48 (2):121-134.

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References found in this work

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Temporal naturalism.Lee Smolin - 2015 - Studies in History and Philosophy of Science Part B: Studies in History and Philosophy of Modern Physics 52 (Part A):86-102.
A Real Ensemble Interpretation of Quantum Mechanics.Lee Smolin - 2012 - Foundations of Physics 42 (10):1239-1261.

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