Particle Trajectories for Quantum Field Theory

Foundations of Physics 48 (2):209-236 (2018)
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Abstract

The formulation of quantum mechanics developed by Bohm, which can generate well-defined trajectories for the underlying particles in the theory, can equally well be applied to relativistic quantum field theories to generate dynamics for the underlying fields. However, it does not produce trajectories for the particles associated with these fields. Bell has shown that an extension of Bohm’s approach can be used to provide dynamics for the fermionic occupation numbers in a relativistic quantum field theory. In the present paper, Bell’s formulation is adopted and elaborated on, with a full account of all technical detail required to apply his approach to a bosonic quantum field theory on a lattice. This allows an explicit computation of trajectories for massive and massless particles in this theory. Also particle creation and annihilation, and their impact on particle propagation, is illustrated using this model.

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10.1007/s10701-018-0140-9

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Citations of this work

Situated observation in Bohmian mechanics.Jeffrey A. Barrett - 2021 - Studies in History and Philosophy of Science Part A 88 (C):345-357.
Simulating Nelsonian Quantum Field Theory.Andrea Carosso - 2024 - Foundations of Physics 54 (3):1-31.

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References found in this work

La Nouvelle Cuisine.J. S. Bell - 2004 - In John Stewart Bell, Speakable and unspeakable in quantum mechanics: collected papers on quantum philosophy. New York: Cambridge University Press. pp. 232--248.
Une Tentative d'interprétation causale et non linéaire de la mécanique ondulatoire.Louis de Broglie - 1958 - British Journal for the Philosophy of Science 9 (34):167-168.

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