No superluminal propagation for classical relativistic and relativistic quantum fields

Studies in History and Philosophy of Science Part B: Studies in History and Philosophy of Modern Physics 48 (2):102-108 (2014)
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Abstract

A criterion is proposed to ensure that classical relativistic fields do not propagate superluminally. If this criterion does indeed serve as a sufficient condition for no superluminal propagation it follows that various other criteria found in the physics literature cannot serve as necessary conditions since they can fail although the proffered condition holds. The rejected criteria rely on energy conditions that are believed to hold for most classical fields used in actual applications. But these energy conditions are known to fail at small scales for quantum fields. It is argued that such a failure is not necessarily a cause for concern about superluminal propagation in the quantum regime since the proffered criterion of no superluminal propagation for classical fields has a natural analog for quantum fields and, further, this quantum analog condition provably holds for some quantum fields despite the violation of energy conditions. The apparatus developed here also offers a different approach to treating the Reichenbach-Salmon cases of "pseudo-causal processes" and helps to clarify the issue of whether relativity theory is consistent with superluminal propagation.

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10.1016/j.shpsb.2014.07.005

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John Earman
University of Pittsburgh

Citations of this work

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References found in this work

Human Knowledge, Its Scope and Limits.Bertrand Russell - 1949 - Revue de Métaphysique et de Morale 54 (2):198-199.
Global Spacetime Structure.John Byron Manchak - 2013 - Cambridge University Press.
Causal processes.Phil Dowe - 2004 - Stanford Encyclopedia of Philosophy.

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