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  1. The stochastic quantum mechanics approach to the unification of relativity and quantum theory.E. Prugovečki - 1984 - Foundations of Physics 14 (12):1147-1162.
    The stochastic phase-space solution of the particle localizability problem in relativistic quantum mechanics is reviewed. It leads to relativistically covariant probability measures that give rise to covariant and conserved probability currents. The resulting particle propagators are used in the formulation of stochastic geometries underlying a concept of quantum spacetime that is operationally based on stochastically extended quantum test particles. The epistemological implications of the intrinsic stochasticity of such quantum spacetime frameworks for microcausality, the EPR paradox, etc., are discussed.
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  • On the nonclassical character of the phase-space representations of quantum mechanics.W. Guz - 1985 - Foundations of Physics 15 (2):121-128.
    The quasiclassical representations of quantum theory, generalizing the concept of a phase-space representation of quantum mechanics, are studied with particular emphasis on some questions connected with the Jordan structure of the classical and quantum algebras of observables. A generalized version of the theorem of Gleason, Kahane, and Zelazko is used to establish some nonclassical features of these representations.
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  • Book review. [REVIEW]James A. Brooke - 1987 - Foundations of Physics 17 (2):209-213.
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