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Trajectories and causal phase-space approach to relativistic quantum mechanics
Foundations of Physics 17 (5):531-548 (1987)
Abstract
We analyze phase-space approaches to relativistic quantum mechanics from the viewpoint of the causal interpretation. In particular, we discuss the canonical phase space associated with stochastic quantization, its relation to Hilbert space, and the Wigner-Moyal formalism. We then consider the nature of Feynman paths, and the problem of nonlocality, and conclude that a perfectly consistent relativistically covariant interpretation of quantum mechanics which retains the notion of particle trajectory is possibleOther Versions
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Citations of this work
Review of invariant time formulations of relativistic quantum theories. [REVIEW]J. R. Fanchi - 1993 - Foundations of Physics 23 (3):487-548.
References found in this work
On the direct observability of quantum waves.F. Selleri - 1982 - Foundations of Physics 12 (11):1087-1112.
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