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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 general covariance and strong equivalence principles in quantum general relativity.Eduard Prugovečki - 1994 - Foundations of Physics 24 (7):989-1076.
    The various physical aspects of the general relativistic principles of covariance and strong equivalence are discussed, and their mathematical formulations are analyzed. All these aspects are shown to be present in classical general relativity, although no contemporary formulation of canonical or covariant quantum gravity has succeeded to incorporate them all. This has, in part, motivated the recent introduction of a geometro-stochastic framework for quantum general relativity, in which the classical frame bundles that underlie the formulation of parallel transport in classical (...)
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  • On the nonoccurrence of two paradoxes in the measurement scheme of stochastic quantum mechanics.F. E. Schroeck - 1985 - Foundations of Physics 15 (3):279-302.
    The internal paradoxes in the quantum measurement scheme related to violation of conservation laws, changes in entropy, absence of a dynamic description of collapse, Wigner's friend, as well as the paradox of violation of causality in the EPR experiment are shown to be partially circumvented in the measurement scheme of stochastic quantum mechanics.
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