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A Relativistic Hidden-Variable Interpretation for the Massive Vector Field Based on Energy-Momentum Flows
Foundations of Physics 40 (6):658-678 (2010)
Abstract
This paper is motivated by the desire to formulate a relativistically covariant hidden-variable particle trajectory interpretation of the quantum theory of the vector field that is formulated in such a way as to allow the inclusion of gravity. We present a methodology for calculating the flows of rest energy and a conserved density for the massive vector field using the time-like eigenvectors and eigenvalues of the stress-energy-momentum tensor. Such flows may be used to define particle trajectories which follow the flow. This work extends our previous work which used a similar procedure for the scalar field. The massive, spin-one, complex vector field is discussed in detail and the flows of energy-momentum are illustrated in a simple example of standing waves in a planeOther Versions
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References found in this work
Relativity: the special theory.John Lighton Synge - 1965 - Amsterdam,: North-Holland Pub. Co.; [sole distributors for U.S.A.: Interscience Publishers, New York,].
Wave-particle dualism and the interpretation of quantum mechanics.C. Dewdney, G. Horton, M. M. Lam, Z. Malik & M. Schmidt - 1992 - Foundations of Physics 22 (10):1217-1265.
de Broglie's Pilot-Wave Theory for the Klein–Gordon Equation and Its Space-Time Pathologies.George Horton, Chris Dewdney & Ulrike Ne'eman - 2002 - Foundations of Physics 32 (3):463-476.
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