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De Broglian probabilities in the double-slit experiment
Foundations of Physics 22 (11):1325-1344 (1992)
Abstract
A new probability interpretation of interference phenomena in the double-slit experiment is proposed. It differs from the standard interpretation (based on elementary events happening in complementary, mutually exclusive setups—arrivals of waves to the screen when one of the slits is closed) which encounters the “paradox” that the law of total probability is violated. This new interpretation is free of such difficulties and paradoxes since it is based on compatible elementary events (events happening in the same setup in which happenall events considered—arrivals of quantons to the screen when both slits are open). Quantum objects—quantons—possess simultaneously particle and wave properties. Compatible statistical interpretation synthesizes in a consistent way the superposition principle for waves and the law of total probability applied to compatible events. Such synthesis is a theoretical expression of de Broglie's observation, now fully confirmed by experiments, that the interference fringes obtained on a photographic plate result from an infinite number of tiny local spots which display arrival of quantons, while the set of fringes is a statistical effect of the wave aspectAuthor's Profile
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Citations of this work
Possible test of the reality of superluminal phase waves and particle phase space motions in the Einstein-de Broglie-Bohm causal stochastic interpretation of quantum mechanics.J. P. Vigier - 1994 - Foundations of Physics 24 (1):61-83.
Compatible statistical interpretation of a wave packet.Mirjana Božić & Zvonko Marić - 1995 - Foundations of Physics 25 (1):159-173.
References found in this work
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The “past” and the “delayed-choice” double-slit experiment.John Archibald Wheeler - 1978 - In A. R. Marlow (ed.), Mathematical foundations of quantum theory. New York: Academic Press.
Stochastic theory for classical and quantum mechanical systems.L. de la Peña & A. M. Cetto - 1975 - Foundations of Physics 5 (2):355-370.
Single-particle trajectories and interferences in quantum mechanics.Nicola Cufaro-Petroni & Jean-Pierre Vigier - 1992 - Foundations of Physics 22 (1):1-40.
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