Abstract:
We study the motion of electromagnetic signals in the Coulomb electric field of a compact gravitating center under the laws of the parameterized nonlinear electrodynamics of the vacuum. We evaluate the deflection angles of the rays along which the electromagnetic waves of two normal modes propagate in this field. We determine the nonlinear electrodynamic delay of the electromagnetic signal of one normal mode relative to the electromagnetic signal of another normal mode during their propagation from the same source to an observer.
Keywords:
nonlinear electrodynamics of the vacuum, ray deflection, electromagnetic signal delay, normal mode.
Citation:
V. I. Denisov, I. P. Denisova, S. I. Svertilov, “Nonlinear Electrodynamic Delay of Electromagnetic Signals in a Coulomb Field”, TMF, 135:2 (2003), 322–330; Theoret. and Math. Phys., 135:2 (2003), 720–726
\Bibitem{DenDenSve03}
\by V.~I.~Denisov, I.~P.~Denisova, S.~I.~Svertilov
\paper Nonlinear Electrodynamic Delay of Electromagnetic Signals in a Coulomb Field
\jour TMF
\yr 2003
\vol 135
\issue 2
\pages 322--330
\mathnet{http://mi.mathnet.ru/tmf180}
\crossref{https://doi.org/10.4213/tmf180}
\transl
\jour Theoret. and Math. Phys.
\yr 2003
\vol 135
\issue 2
\pages 720--726
\crossref{https://doi.org/10.1023/A:1023682802108}
\isi{https://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=Publons&SrcAuth=Publons_CEL&DestLinkType=FullRecord&DestApp=WOS_CPL&KeyUT=000183468400012}
Linking options:
https://www.mathnet.ru/eng/tmf180
https://doi.org/10.4213/tmf180
https://www.mathnet.ru/eng/tmf/v135/i2/p322
This publication is cited in the following 12 articles:
Gapochka M.G. Denisova I.P. Korolev A.F. Koshelev N.N. Einiev E.T., “On the Measurement of the Ratio of the Gravitational and Inertial Masses of An Electron”, Mosc. Univ. Phys. Bull., 74:4 (2019), 337–340
Vasili'ev M.I., Gapochka M.G., Denisova I.P., Kechkin O.V., “Nonlinear Electrodynamic Birefringence in a Multipole Magnetic Field”, Mosc. Univ. Phys. Bull., 73:5 (2018), 457–461
Vasili'ev M.I., Denisov V.I., Kozar' A. V., Tomasi-Vshivtseva P.A., “The Effects of Vacuum Nonlinear Electrodynamics in a Electric Dipole Field”, Mosc. Univ. Phys. Bull., 72:6 (2017), 513–517
Mazaeva I.V., Pasisnichenko M.A., “The Effect of the Relativistic Transformation Law of Angles on Laser Ranging of Satellites Moving in Circular Orbits Equipped With a Single Retroreflector”, Mosc. Univ. Phys. Bull., 72:4 (2017), 402–409
Abishev M. Aimuratov Y. Aldabergenov Y. Beissen N. Bakytzhan Zh. Takibayeva M., “Some Astrophysical Effects of Nonlinear Vacuum Electrodynamics in the Magnetosphere of a Pulsar”, Astropart Phys., 73 (2016), 8–13
Denisov V.I. Ilyina V.A. Sokolov V.A., “Nonlinear vacuum electrodynamics influence on the spacetime structure and massive particles orbits properties in Einstein–Born–Infeld theory”, Int. J. Mod. Phys. D, 25:11, SI (2016), 1640003
M. G. Gapochka, M. M. Denisov, I. P. Denisova, N. V. Kalenova, A. F. Korolev, “Mathematical modeling of the nonlinear electrodynamics effect of signal delay in the magnetic field of pulsars”, Comput. Math. Math. Phys., 55:11 (2015), 1857–1866
Denisov D.M., “Effects of Nonlinear Electrodynamics in the Magnetic Field of a Pulsar”, Can. J. Phys., 92:11 (2014), 1453–1459
Denisov V.I. Sokolov V.A. Vasili'ev M.I., “Nonlinear Vacuum Electrodynamics Birefringence Effect in a Pulsar's Strong Magnetic Field”, Phys. Rev. D, 90:2 (2014), 023011
M. V. Ostanina, M. A. Pasisnichenko, V. S. Rostovskii, “Mathematical modeling of a relativistic effect that arises during laser ranging of artificial Earth satellites”, Moscow Univ. Phys., 68:6 (2013), 478
V. I. Denisov, I. P. Denisova, S. I. Svertilov, “Nonlinear Electromagnetic Delay of Electromagnetic Signals Propagating in the Magnetic Meridian Plane of Pulsars and Magnetars”, Theoret. and Math. Phys., 140:1 (2004), 1001–1010