On the Superluminal Signals in Quantum Electrodynamics

  • B. A. Veklenko Joint Institute for High Temperatures of the Russian Academy of Sciences 125412, str. Izhorskaia, 13, build 2, Moscow, Russian Federation.
Keywords: Superluminal signals, quantum electrodynamics, Heisenberg and Schr�dinger representations, adiabatic hypothesis

Abstract

Using as an example the Fermi problem dealing with nonstationary transformation of optical excitation from one atom to another the reason of superluminal signals appearance in quantum electrodynamics is clearing. It is shown that the calculation using the conventional methods in Heisenberg and Schringer representations in nonstationary problems lead to different results. The Schringer representation predicts the existents of specified quantum superluminal signals. In Heisenberg representation the superluminal signals are absent. The reason of non-identity of representations is close connected with using of the adiabatic hypothesis.

Published
2019-11-21
How to Cite
Veklenko, B. A. (2019). On the Superluminal Signals in Quantum Electrodynamics. Theory and Applications of Physical Science Vol. 1, 66-78. Retrieved from https://stm1.bookpi.org/index.php/taps-v1/article/view/652
Issue
Theory and Applications of Physical Science Vol. 1
Section
Chapters