Reviews of Modern Physics
Bell's theorem rules out many potential reformulations of quantum mechanics, but within a generalized framework it does not exclude all locally mediated models. Such models describe the correlations between entangled particles as mediated by intermediate parameters that track the particle worldlines and respect Lorentz covariance. These locally mediated models require the relaxation of an arrow-of-time assumption that is typically taken for granted. Specifically, some of the mediating parameters in these models must functionally depend on measurement settings in their future, i.e., on input parameters associated with later times. This option, often called retrocausal, has been repeatedly pointed out in the literature, but the exploration of explicit locally mediated toy models capable of describing specific entanglement phenomena has begun only in the past decade. A brief survey of such models is included here. These models provide a continuous and consistent description of events associated with spacetime locations, with aspects that are solved "all at once"rather than unfolding from the past to the future. The tension between quantum mechanics and relativity that is usually associated with Bell's theorem does not occur here. Unlike in conventional quantum models, the number of parameters needed to specify the state of a system does not grow exponentially with the number of entangled particles. The promise of generalizing such models to account for all quantum phenomena is identified as a grand challenge.
John E. Fetzer Memorial Trust
Physics and Astronomy
K. B. Wharton and N. Argaman. "Colloquium: Bell's theorem and locally mediated reformulations of quantum mechanics" Reviews of Modern Physics (2020). https://doi.org/10.1103/REVMODPHYS.92.021002
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